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Opened 30 hours ago
Last modified 17 hours ago
#19776 closed defect
ChimeraX bug report submission — at Initial Version
| Reported by: | Owned by: | ||
|---|---|---|---|
| Priority: | normal | Milestone: | |
| Component: | Surface/Binding Analysis | Version: | |
| Keywords: | Cc: | ||
| Blocked By: | Blocking: | ||
| Notify when closed: | Platform: | all | |
| Project: | ChimeraX |
Description
The following bug report has been submitted:
Platform: macOS-15.6-arm64-arm-64bit
ChimeraX Version: 1.12.dev202601270036 (2026-01-27 00:36:36 UTC)
Description
trying to run "Find Cavities" - log reported successful install of kvfinder but the command returns:
ModuleNotFoundError: No module named '_pyKVFinder'
File "/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-packages/chimerax/kvfinder/prep.py", line 90, in prep_input
from _pyKVFinder import _filter_pdb
See log for complete Python traceback.
It seems something does get installed in 'Application Support':
>> ls $HOME/Library/Application\ Support/ChimeraX/1.12/lib/python/site-packages/pyKVFinder
__init__.py _pyKVFinder.cpython-311-darwin.so* data/ main.py
__pycache__/ argparser.py grid/ utils.py
Log:
UCSF ChimeraX version: 1.12.dev202601270036 (2026-01-27)
© 2016-2026 Regents of the University of California. All rights reserved.
> open /Users/pcarlton/Desktop/3A-work.cxs format session
Log from Wed Jan 28 16:58:23 2026UCSF ChimeraX version: 1.12.dev202601052311
(2026-01-05)
© 2016-2025 Regents of the University of California. All rights reserved.
> open /Users/pcarlton/Desktop/k00session.cxs format session
Log from Mon Jan 12 07:35:42 2026UCSF ChimeraX version: 1.12.dev202601052311
(2026-01-05)
© 2016-2025 Regents of the University of California. All rights reserved.
> open /Users/pcarlton/Desktop/acc-20251026/k00session.cxs
Log from Fri Sep 26 16:09:00 2025UCSF ChimeraX version: 1.11.dev202506162128
(2025-06-16)
© 2016-2025 Regents of the University of California. All rights reserved.
> open /Users/pcarlton/Desktop/chimerax/wow3.cxs
Log from Sat Sep 6 22:32:53 2025UCSF ChimeraX version: 1.11.dev202506162128
(2025-06-16)
© 2016-2025 Regents of the University of California. All rights reserved.
> open /Users/pcarlton/Desktop/wow.cxs
Log from Fri Sep 5 17:09:26 2025UCSF ChimeraX version: 1.11.dev202506132009
(2025-06-13)
© 2016-2025 Regents of the University of California. All rights reserved.
How to cite UCSF ChimeraX
> open /Users/pcarlton/Downloads/fold_dsb_1_chk_2/fold_dsb_1_chk_2_model_0.cif
Chain information for fold_dsb_1_chk_2_model_0.cif #1
---
Chain | Description
A | .
B | .
Computing secondary structure
> open /Users/pcarlton/Downloads/fold_dsb_1_chk_2/fold_dsb_1_chk_2_model_4.cif
Chain information for fold_dsb_1_chk_2_model_4.cif #2
---
Chain | Description
A | .
B | .
> open /Users/pcarlton/Downloads/fold_dsb_1_chk_2/fold_dsb_1_chk_2_model_3.cif
Chain information for fold_dsb_1_chk_2_model_3.cif #3
---
Chain | Description
A | .
B | .
> open /Users/pcarlton/Downloads/fold_dsb_1_chk_2/fold_dsb_1_chk_2_model_2.cif
Chain information for fold_dsb_1_chk_2_model_2.cif #4
---
Chain | Description
A | .
B | .
> open /Users/pcarlton/Downloads/fold_dsb_1_chk_2/fold_dsb_1_chk_2_model_1.cif
Chain information for fold_dsb_1_chk_2_model_1.cif #5
---
Chain | Description
A | .
B | .
Computing secondary structure
[Repeated 3 time(s)]
> mmaker #5,4,3,2/B to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_1.cif, chain B (#5), sequence alignment score = 2388.7
RMSD between 387 pruned atom pairs is 0.493 angstroms; (across all 476 pairs:
22.599)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_2.cif, chain B (#4), sequence alignment score = 2399.5
RMSD between 275 pruned atom pairs is 0.544 angstroms; (across all 476 pairs:
22.976)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_3.cif, chain B (#3), sequence alignment score = 2393.5
RMSD between 293 pruned atom pairs is 0.667 angstroms; (across all 476 pairs:
18.255)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_4.cif, chain B (#2), sequence alignment score = 2387.5
RMSD between 266 pruned atom pairs is 0.428 angstroms; (across all 476 pairs:
32.072)
> mmaker #5,4,3,2/A to #1/A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_1.cif, chain A (#5), sequence alignment score = 1874.1
RMSD between 45 pruned atom pairs is 0.675 angstroms; (across all 385 pairs:
42.674)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_2.cif, chain A (#4), sequence alignment score = 1863.6
RMSD between 102 pruned atom pairs is 0.370 angstroms; (across all 385 pairs:
42.971)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_3.cif, chain A (#3), sequence alignment score = 1893.6
RMSD between 16 pruned atom pairs is 1.156 angstroms; (across all 385 pairs:
42.030)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_4.cif, chain A (#2), sequence alignment score = 1854.6
RMSD between 12 pruned atom pairs is 1.416 angstroms; (across all 385 pairs:
56.468)
> mmaker #5,4,3,2/B to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_1.cif, chain B (#5), sequence alignment score = 2388.7
RMSD between 387 pruned atom pairs is 0.493 angstroms; (across all 476 pairs:
22.599)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_2.cif, chain B (#4), sequence alignment score = 2399.5
RMSD between 275 pruned atom pairs is 0.544 angstroms; (across all 476 pairs:
22.976)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_3.cif, chain B (#3), sequence alignment score = 2393.5
RMSD between 293 pruned atom pairs is 0.667 angstroms; (across all 476 pairs:
18.255)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain B (#1) with
fold_dsb_1_chk_2_model_4.cif, chain B (#2), sequence alignment score = 2387.5
RMSD between 266 pruned atom pairs is 0.428 angstroms; (across all 476 pairs:
32.072)
> color bychain
> sequence align /B
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: LBXTEHCHG0IHUB1K
Webservices job finished: LBXTEHCHG0IHUB1K
> sequence header rmsd show
Chains used in RMSD evaluation for alignment 1: fold_dsb_1_chk_2_model_0.cif
#1/B, fold_dsb_1_chk_2_model_4.cif #2/B, fold_dsb_1_chk_2_model_3.cif #3/B,
fold_dsb_1_chk_2_model_2.cif #4/B, fold_dsb_1_chk_2_model_1.cif #5/B
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header conservation hide
Hiding conservation header for alignment 1
> sequence align /A
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: FM4FCOR4ASUZ530R
Webservices job finished: FM4FCOR4ASUZ530R
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2: fold_dsb_1_chk_2_model_0.cif
#1/A, fold_dsb_1_chk_2_model_4.cif #2/A, fold_dsb_1_chk_2_model_3.cif #3/A,
fold_dsb_1_chk_2_model_2.cif #4/A, fold_dsb_1_chk_2_model_1.cif #5/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> select #1/A:301
7 atoms, 6 bonds, 1 residue, 1 model selected
> select #1/A:301 #2/A:301 #3/A:301 #4/A:301 #5/A:301
35 atoms, 30 bonds, 5 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain A..chain A [301] RMSD: 1.635
> select #1/A:369-370
15 atoms, 14 bonds, 2 residues, 1 model selected
> select #1/A:369-382 #2/A:369-382 #3/A:369-382 #4/A:369-382 #5/A:369-382
500 atoms, 505 bonds, 70 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain A..chain A [369-382] RMSD: 0.597
> select #1/A:301
7 atoms, 6 bonds, 1 residue, 1 model selected
> select #1/A:301-302 #2/A:301-302 #3/A:301-302 #4/A:301-302 #5/A:301-302
80 atoms, 75 bonds, 10 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain A..chain A [301-302] RMSD: 3.351
> show sel atoms
> color sel byhetero
> select add /A:301-302
80 atoms, 75 bonds, 10 residues, 5 models selected
> select #1/A:369
6 atoms, 5 bonds, 1 residue, 1 model selected
> select #1/A:369-383 #2/A:369-383 #3/A:369-383 #4/A:369-383 #5/A:369-383
540 atoms, 545 bonds, 75 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain A..chain A [369-383] RMSD: 0.678
> mmaker #5,4,3,2/A & sel to #1/A & sel
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_4.cif, chain A (#2), sequence alignment score = 70.5
RMSD between 15 pruned atom pairs is 0.575 angstroms; (across all 15 pairs:
0.575)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_3.cif, chain A (#3), sequence alignment score = 70.5
RMSD between 15 pruned atom pairs is 0.520 angstroms; (across all 15 pairs:
0.520)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_2.cif, chain A (#4), sequence alignment score = 70.5
RMSD between 15 pruned atom pairs is 0.242 angstroms; (across all 15 pairs:
0.242)
Matchmaker fold_dsb_1_chk_2_model_0.cif, chain A (#1) with
fold_dsb_1_chk_2_model_1.cif, chain A (#5), sequence alignment score = 64.5
RMSD between 15 pruned atom pairs is 0.401 angstroms; (across all 15 pairs:
0.401)
> select #1/B:322-323
19 atoms, 19 bonds, 2 residues, 1 model selected
> select #1/B:323-338 #2/B:323-338 #3/B:323-338 #4/B:323-338 #5/B:323-338
610 atoms, 610 bonds, 80 residues, 5 models selected
Clustal Omega Alignment [ID: 1] region chain B..chain B [323-338] RMSD: 5.381
> select #1/B:340
7 atoms, 7 bonds, 1 residue, 1 model selected
> select #1/B:340-455 #2/B:340-455 #3/B:340-455 #4/B:340-455 #5/B:340-455
4675 atoms, 4795 bonds, 580 residues, 5 models selected
Clustal Omega Alignment [ID: 1] region chain B..chain B [340-455] RMSD: 0.908
> close
> open
> /Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33678
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> clashes
No clashes
> hide atoms
> show ribbons
> select Mg
4 atoms, 1 bond, 4 residues, 1 model selected
> show sel atoms
Computing secondary structure
> color sel orange
> style sel sphere
Changed 4 atom styles
> select clear
> select /K:21
32 atoms, 33 bonds, 1 residue, 1 model selected
> select add /J:44
64 atoms, 67 bonds, 2 residues, 1 model selected
> select add /L:20
96 atoms, 101 bonds, 3 residues, 1 model selected
> select up
3825 atoms, 4122 bonds, 120 residues, 1 model selected
> color sel dark gray
> set bgColor white
> select clear
> select /K:30
32 atoms, 34 bonds, 1 residue, 1 model selected
> select add /L:1
65 atoms, 68 bonds, 2 residues, 1 model selected
> hide sel cartoons
> show sel atoms
> color sel byhetero
> style sel ball
Changed 65 atom styles
> select up
1898 atoms, 2036 bonds, 60 residues, 1 model selected
> select down
65 atoms, 68 bonds, 2 residues, 1 model selected
> contacts sel intraMol false
63 contacts
> contacts sel intraMol false select true reveal true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
63 contacts
atom1 atom2 overlap distance
/L DT 1 P /B ARG 115 NH2 0.284 3.227
/K DA 30 N1 /J DT 31 O2 0.243 2.862
/K DA 30 N7 /L DT 1 C6 0.204 3.121
/K DA 30 N3 /A TYR 230 HD2 0.169 2.456
/L DT 1 C2 /K DA 30 N6 0.155 3.170
/L DT 1 OP3 /K DA 30 OP2 0.115 2.885
/L DT 1 O4' /K DA 30 C5 0.084 3.116
/L DT 1 H3 /J DA 30 C2 0.084 2.616
/K DA 30 N3 /A TYR 230 CD2 0.062 3.263
/L DT 1 N1 /K DA 30 N6 -0.000 3.250
/L DT 1 O4' /K DA 30 N7 -0.010 3.135
/L DT 1 O4' /K DA 30 C8 -0.025 3.225
/L DT 1 H3 /J DA 30 H2 -0.046 2.046
/L DT 1 N1 /K DA 30 C6 -0.054 3.379
/K DA 30 N6 /L DT 1 N3 -0.059 3.309
/L DT 1 O4' /K DA 30 C4 -0.059 3.259
/K DA 30 C5 /L DT 1 C1' -0.065 3.465
/K DA 30 C2 /A TYR 230 H -0.084 2.784
/L DT 1 N3 /J DA 30 C2 -0.086 3.411
/L DT 1 N3 /J DA 30 H2 -0.107 2.732
/L DT 1 P /B ARG 115 HH22 -0.110 2.981
/L DT 1 OP1 /B ARG 115 NH2 -0.119 2.859
/L DT 1 OP3 /B ARG 115 NH2 -0.120 2.860
/K DA 30 C5' /A HIS 259 CG -0.131 3.531
/K DA 30 O3' /H MG 1 MG -0.136 2.166
/K DA 30 C5' /A HIS 259 CB -0.137 3.537
/L DT 1 C6 /K DA 30 C5 -0.138 3.538
/K DA 30 H5' /A HIS 259 ND1 -0.140 2.780
/L DT 1 C1' /K DA 30 C6 -0.172 3.572
/L DT 1 C6 /K DA 30 N6 -0.175 3.500
/L DT 1 N1 /K DA 30 C5 -0.177 3.502
/K DA 30 N7 /L DT 1 H6 -0.180 2.805
/K DA 30 H5' /A HIS 259 CG -0.188 2.888
/K DA 30 N9 /L DT 1 O4' -0.202 3.327
/L DT 1 C5' /B ARG 115 NH2 -0.216 3.556
/L DT 1 H5'' /B ARG 115 NH2 -0.229 2.869
/K DA 30 OP2 /L DT 1 OP2 -0.247 3.247
/K DA 30 C6 /L DT 1 C2 -0.255 3.655
/K DA 30 C2 /A TYR 230 HD2 -0.260 2.960
/K DA 30 H2 /A TYR 230 H -0.267 2.267
/K DA 30 H2' /L DT 1 C4' -0.275 2.975
/K DA 30 OP2 /L DT 1 P -0.275 3.646
/K DA 30 N6 /L DT 1 C4 -0.276 3.601
/K DA 30 C2 /J DT 32 O2 -0.296 3.476
/K DA 30 C2 /A TYR 230 N -0.303 3.628
/L DT 1 H5' /K DA 30 H3' -0.309 2.309
/L DT 1 OP1 /B ARG 115 HH22 -0.317 2.417
/L DT 1 OP1 /B ARG 115 CZ -0.319 3.519
/K DA 30 C5' /A HIS 259 ND1 -0.323 3.663
/K DA 30 C4' /A HIS 259 CB -0.330 3.730
/K DA 30 H4' /A HIS 259 HB3 -0.331 2.331
/L DT 1 C5 /K DA 30 H62 -0.331 3.031
/K DA 30 C4' /A HIS 259 HB3 -0.337 3.037
/L DT 1 C4 /K DA 30 H62 -0.339 3.039
/L DT 1 C6 /K DA 30 C6 -0.349 3.749
/K DA 30 N6 /L DT 1 C5 -0.359 3.684
/K DA 30 N3 /A GLY 229 CA -0.361 3.686
/K DA 30 P /L DT 1 OP3 -0.365 3.736
/K DA 30 H4' /A HIS 259 CB -0.365 3.065
/L DT 1 C6 /K DA 30 H62 -0.366 3.066
/K DA 30 N7 /L DT 1 N1 -0.368 3.618
/K DA 30 C3' /L DT 1 H5' -0.384 3.084
/K DA 30 N3 /A TYR 230 H -0.396 2.621
63 contacts
> select up
228 atoms, 235 bonds, 10 residues, 1 model selected
> style sel ball
Changed 228 atom styles
> lighting flat
> color sel byhetero
> show sel cartoons
> nucleotides sel ladder
> nucleotides sel slab
> style nucleic & sel stick
Changed 161 atom styles
> hide sel cartoons
> select clear
> hide atoms
> show cartoons
> select clear
> show cartoons
> select /A,B:115,230,259
121 atoms, 119 bonds, 6 residues, 1 model selected
> show sel atoms
> style sel ball
Changed 121 atom styles
> select clear
[Repeated 1 time(s)]
> hide atoms
[Repeated 1 time(s)]
> show cartoons
> select clear
> select /A,B:115,230,259
121 atoms, 119 bonds, 6 residues, 1 model selected
> show sel atoms
> color sel byhetero
> style sel sphere
Changed 121 atom styles
> contacts sel select true reveal true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: True
178 contacts
atom1 atom2 overlap distance
/B ARG 115 NH2 /L DT 1 P 0.284 3.227
/B ARG 115 CD /L DT 2 OP2 0.260 2.940
/B HIS 259 ND1 /B LYS 316 NZ 0.232 3.033
/B HIS 259 CE1 /J DA 28 O5' 0.199 3.001
/A TYR 230 HD2 /K DA 30 N3 0.169 2.456
/A ARG 115 CZ /A GLN 128 OE1 0.164 3.016
/B HIS 259 NE2 /J DA 28 P 0.155 3.341
/A HIS 259 ND1 /A LYS 316 NZ 0.137 3.128
/B HIS 259 ND1 /B LYS 316 HZ1 0.127 2.513
/B HIS 259 CE1 /B LYS 316 NZ 0.119 3.206
/A ARG 115 CD /J DA 30 OP2 0.111 3.089
/A HIS 259 ND1 /A LYS 316 HZ1 0.102 2.538
/A ARG 115 HH12 /J DT 31 C7 0.093 2.607
/B TYR 230 CD2 /J DA 28 N3 0.091 3.234
/B ARG 115 NE /B TYR 119 CE2 0.084 3.241
/B ARG 115 NE /B TYR 119 HE2 0.077 2.548
/A TYR 230 CD2 /K DA 30 N3 0.062 3.263
/B ARG 115 NH1 /B GLN 128 CD 0.033 3.307
/B HIS 259 O /B ILE 263 CD1 0.029 3.151
/A ARG 115 NH1 /J DT 31 C7 0.026 3.299
/B TYR 230 CE2 /J DA 28 N3 0.020 3.305
/A ARG 115 NE /J DA 30 OP2 0.011 2.714
/B TYR 230 HD2 /J DA 28 N3 0.008 2.617
/B ARG 115 CD /L DT 2 P -0.010 3.581
/B HIS 259 CE1 /B LYS 316 HZ3 -0.023 2.723
/B ARG 115 HD3 /L DT 2 P -0.045 2.916
/A ARG 115 NH1 /A GLN 128 OE1 -0.064 2.769
/B ARG 115 O /B TYR 118 HB3 -0.076 2.556
/B ARG 115 HD2 /L DT 2 OP2 -0.076 2.576
/A TYR 230 H /K DA 30 C2 -0.084 2.784
/B ARG 115 HD3 /L DT 2 OP1 -0.085 2.585
/B ARG 115 C /B TYR 118 H -0.086 2.786
/A ARG 115 C /A TYR 118 H -0.086 2.786
/A ARG 115 NH1 /J DA 30 C8 -0.089 3.414
/A ARG 115 CD /A TYR 119 HE2 -0.089 2.789
/B ARG 115 NH1 /B GLN 128 HB2 -0.089 2.729
/A ARG 115 HH12 /J DT 31 H71 -0.096 2.096
/A HIS 259 O /A ILE 263 CD1 -0.098 3.278
/A ARG 115 O /A TYR 118 HB3 -0.105 2.585
/B ARG 115 NH2 /B TYR 119 OH -0.105 2.845
/B HIS 259 O /B ILE 263 HD12 -0.105 2.585
/A ARG 115 HG3 /A GLN 128 CD -0.106 2.806
/B HIS 259 CD2 /J DA 28 O5' -0.107 3.307
/B ARG 115 HH22 /L DT 1 P -0.110 2.981
/B HIS 259 CG /B LYS 316 HZ1 -0.111 2.811
/A ARG 115 CD /J DA 30 P -0.119 3.690
/B ARG 115 NH2 /L DT 1 OP1 -0.119 2.859
/A ARG 115 CZ /J DA 30 OP2 -0.120 3.320
/B ARG 115 NH2 /L DT 1 OP3 -0.120 2.860
/A TYR 230 HD1 /A PRO 231 HD2 -0.122 2.122
/B ARG 115 HD3 /L DT 2 OP2 -0.127 2.627
/A TYR 230 OH /A GLU 262 OE1 -0.128 2.708
/B ARG 115 NH2 /B TYR 119 CZ -0.128 3.468
/A HIS 259 CG /K DA 30 C5' -0.131 3.531
/A ARG 115 HG3 /A GLN 128 NE2 -0.132 2.757
/B ARG 115 NH1 /B TYR 118 CD2 -0.135 3.475
/A HIS 259 CB /K DA 30 C5' -0.137 3.537
/A ARG 115 HB2 /J DT 31 OP2 -0.138 2.638
/B HIS 259 NE2 /J DA 28 O5' -0.138 2.863
/B ARG 115 HE /B TYR 119 HE2 -0.140 2.140
/A HIS 259 ND1 /K DA 30 H5' -0.140 2.780
/B TYR 230 OH /B GLU 262 OE1 -0.145 2.725
/B TYR 230 HE2 /J DA 28 N3 -0.145 2.770
/A ARG 115 HD3 /A TYR 119 HE2 -0.148 2.148
/B HIS 259 O /B ILE 263 CG1 -0.149 3.329
/A HIS 259 HB2 /A ASP 257 OD2 -0.156 2.636
/A ARG 115 CD /A TYR 119 CE2 -0.158 3.558
/B HIS 259 HE2 /J DA 28 P -0.167 3.038
/A ARG 115 HD3 /J DA 30 OP2 -0.170 2.670
/A TYR 230 CB /A PRO 231 HD2 -0.178 2.878
/A ARG 115 HE /A TYR 119 OH -0.187 2.287
/A HIS 259 CG /K DA 30 H5' -0.188 2.888
/A ARG 115 NH1 /A GLN 128 CD -0.189 3.514
/B ARG 115 NH1 /B GLN 128 OE1 -0.190 2.910
/A ARG 115 NH1 /J DA 30 H3' -0.194 2.819
/B HIS 259 CE1 /B LYS 316 HZ1 -0.197 2.897
/B HIS 259 CE1 /J DA 28 P -0.201 3.772
/B ARG 115 HE /B TYR 119 CE2 -0.201 2.901
/A HIS 259 CE1 /A LYS 316 NZ -0.207 3.532
/A ARG 115 NH1 /J DT 31 H71 -0.208 2.833
/B HIS 259 NE2 /J DA 28 OP1 -0.208 2.933
/B ARG 115 NH1 /B GLN 128 CB -0.212 3.552
/B ARG 115 O /B TYR 118 CB -0.212 3.392
/A ARG 115 HE /A TYR 119 CZ -0.214 2.914
/B ARG 115 NH2 /L DT 1 C5' -0.216 3.556
/A TYR 230 HD1 /A PRO 231 CD -0.221 2.921
/A TYR 230 CD1 /A PRO 231 HD2 -0.225 2.925
/A ARG 115 O /A TYR 119 CD2 -0.225 3.405
/B ARG 115 NH2 /L DT 1 H5'' -0.229 2.869
/B TYR 230 HE2 /J DA 28 H1' -0.229 2.229
/B ARG 115 C /B TYR 118 N -0.237 3.562
/B HIS 259 O /B ILE 263 HG13 -0.239 2.719
/A ARG 115 NE /A TYR 119 CE2 -0.244 3.569
/B HIS 259 ND1 /J DA 28 C4' -0.248 3.588
/A HIS 259 O /A ILE 263 CG1 -0.248 3.428
/A TYR 230 HB3 /A PRO 231 CD -0.250 2.950
/A ARG 115 O /A TYR 118 CB -0.256 3.436
/B ARG 115 NH1 /B TYR 118 CE2 -0.256 3.596
/B HIS 259 ND1 /B LYS 316 HZ3 -0.258 2.898
/A ARG 115 HE /A TYR 119 CE2 -0.259 2.959
/A TYR 230 HD2 /K DA 30 C2 -0.260 2.960
/B ARG 115 HB3 /A THR 205 CG2 -0.260 2.960
/B HIS 259 CG /B LYS 316 NZ -0.261 3.586
/A ARG 115 NE /J DA 30 P -0.261 3.757
/A ARG 115 CG /A GLN 128 NE2 -0.266 3.591
/A ARG 115 O /A TYR 118 H -0.267 2.347
/A TYR 230 H /K DA 30 H2 -0.267 2.267
/A ARG 115 HD2 /J DT 31 OP2 -0.270 2.770
/A ARG 115 C /A TYR 118 N -0.281 3.606
/B HIS 259 HE2 /J DA 28 OP1 -0.283 2.383
/A HIS 259 O /A ILE 263 HD12 -0.284 2.764
/A HIS 259 ND1 /A LYS 316 HZ3 -0.284 2.924
/B HIS 259 CE1 /J DA 28 O4' -0.285 3.485
/B ARG 115 O /B TYR 118 N -0.285 2.990
/A HIS 259 O /A ILE 263 HG13 -0.287 2.767
/A ARG 115 HG2 /A TYR 119 CE2 -0.287 2.987
/B TYR 230 CB /L DT 4 H1' -0.288 2.988
/B ARG 115 CZ /B TYR 119 CE2 -0.288 3.689
/A ARG 115 HB3 /B THR 205 CG2 -0.289 2.989
/A TYR 230 CD1 /A ILE 263 HG12 -0.291 2.991
/A ARG 115 HH11 /J DA 30 H3' -0.294 2.294
/B ARG 115 C /B LEU 117 H -0.294 2.994
/A ARG 115 HB3 /B THR 205 HG21 -0.295 2.295
/A ARG 115 CB /J DT 31 OP2 -0.297 3.497
/A TYR 230 CD1 /A PRO 231 CD -0.299 3.699
/B ARG 115 CD /L DT 2 OP1 -0.300 3.500
/B ARG 115 HG2 /B TYR 119 CE2 -0.302 3.002
/B TYR 230 CD2 /J DA 28 C2 -0.303 3.703
/B ARG 115 CG /B TYR 119 CE2 -0.303 3.703
/A TYR 230 N /K DA 30 C2 -0.303 3.628
/B TYR 230 O /B GLY 229 O -0.307 3.267
/A ARG 115 HH11 /J DT 31 OP2 -0.308 2.408
/A TYR 230 CD1 /A ILE 263 CG1 -0.310 3.710
/B ARG 115 HB3 /A THR 205 HG21 -0.312 2.312
/A TYR 230 CE1 /A ILE 263 CG1 -0.312 3.712
/A ARG 115 HD3 /J DA 30 P -0.313 3.184
/A ARG 115 CD /J DA 30 O5' -0.313 3.513
/B ARG 115 O /B TYR 118 H -0.315 2.395
/A ARG 115 CG /A TYR 119 CE2 -0.316 3.716
/B ARG 115 HH22 /L DT 1 OP1 -0.317 2.417
/B ARG 115 CZ /L DT 1 OP1 -0.319 3.519
/A ARG 115 NH1 /A GLN 128 NE2 -0.322 3.572
/A HIS 259 ND1 /K DA 30 C5' -0.323 3.663
/A ARG 115 O /A TYR 118 N -0.324 3.029
/A ARG 115 C /A LEU 117 H -0.326 3.026
/A ARG 115 HD3 /A TYR 119 CE2 -0.327 3.027
/A HIS 259 CB /K DA 30 C4' -0.330 3.730
/A HIS 259 HB3 /K DA 30 H4' -0.331 2.331
/A TYR 230 HB3 /A PRO 231 HD2 -0.333 2.333
/A HIS 259 HB3 /K DA 30 C4' -0.337 3.037
/B HIS 259 HB2 /B ASP 257 OD2 -0.338 2.818
/B ARG 115 O /B TYR 119 H -0.345 2.425
/B TYR 230 HD2 /J DA 28 C2 -0.345 3.045
/A ARG 115 HH12 /J DA 30 C8 -0.348 3.048
/A HIS 259 CE1 /A LYS 316 HZ3 -0.348 3.048
/B ARG 115 NH1 /B GLN 128 CG -0.352 3.692
/B ARG 115 HG2 /B TYR 119 CD2 -0.353 3.053
/A ARG 115 NE /A TYR 119 HE2 -0.354 2.979
/B TYR 230 HA /B PRO 231 HD3 -0.357 2.357
/A HIS 259 CB /A ASP 257 OD2 -0.358 3.538
/B TYR 230 CE2 /J DA 28 H1' -0.362 3.062
/B ARG 115 O /B TYR 118 CA -0.363 3.543
/A ARG 115 CG /A GLN 128 CD -0.365 3.765
/A HIS 259 CB /K DA 30 H4' -0.365 3.065
/B ARG 115 O /B TYR 119 HD2 -0.370 2.850
/B TYR 230 CB /L DT 4 C1' -0.376 3.776
/A HIS 259 CE1 /K DA 29 H4' -0.378 3.078
/B ARG 115 CZ /B TYR 119 OH -0.380 3.580
/A HIS 259 N /A ASP 257 CG -0.381 3.706
/B HIS 259 CD2 /J DA 28 OP1 -0.383 3.583
/A ARG 115 O /A TYR 119 HD2 -0.385 2.865
/A ARG 115 NH1 /J DA 30 C3' -0.389 3.714
/B ARG 115 O /B TYR 119 CD2 -0.391 3.571
/B ARG 115 NE /L DT 2 P -0.393 3.889
/A ARG 115 NE /A TYR 119 CZ -0.394 3.719
/B TYR 230 HD1 /B PRO 231 HD2 -0.395 2.395
/A TYR 230 H /K DA 30 N3 -0.396 2.621
/A HIS 259 H /A ASP 257 C -0.396 3.096
178 contacts
> color sel byhetero
> select up
733 atoms, 740 bonds, 35 residues, 1 model selected
> color sel byhetero
> style sel ball
Changed 733 atom styles
> nucleotides sel tube/slab shape muffler
> open
> /Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33680
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33675
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33674
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123split/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33680
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> hide sel atoms
[Repeated 1 time(s)]
> select #3/C:138@H
1 atom, 1 residue, 1 model selected
> select clear
> hide atoms
> show cartoons
Computing secondary structure
[Repeated 3 time(s)]
> mmaker #5,4,3,2/A to #1/A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 2085.4
RMSD between 329 pruned atom pairs is 0.414 angstroms; (across all 425 pairs:
23.380)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 2019.4
RMSD between 317 pruned atom pairs is 0.430 angstroms; (across all 425 pairs:
24.391)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 2032.6
RMSD between 336 pruned atom pairs is 0.348 angstroms; (across all 425 pairs:
34.779)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain A
(#2), sequence alignment score = 2059
RMSD between 334 pruned atom pairs is 0.363 angstroms; (across all 425 pairs:
34.100)
> mmaker #5,4,3,2/A,B to #1/A,B pairing bs
Specify a single 'to' chain only
> mmaker #5,4,3,2/A,B to #1/A,B pairing ss
Different number of reference/match chains (2 ref, 8 match)
> select clear
[Repeated 1 time(s)]
> color bychain
> sequence align /A /B
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: HYO909XY9PEP5EGN
Webservices job finished: HYO909XY9PEP5EGN
> sequence header conservation hide
Hiding conservation header for alignment 1
> sequence header rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> select #1/A:369-370
28 atoms, 27 bonds, 2 residues, 1 model selected
> select #1/A-B:232-370 #2/A-B:232-370 #3/A-B:232-370 #4/A-B:232-370
> #5/A-B:232-370
23000 atoms, 23280 bonds, 26 pseudobonds, 1390 residues, 6 models selected
> select #1/A-B:231-370 #2/A-B:231-370 #3/A-B:231-370 #4/A-B:231-370
> #5/A-B:231-370
23140 atoms, 23430 bonds, 26 pseudobonds, 1400 residues, 6 models selected
Clustal Omega Alignment [ID: 1] region chain A..chain B [231-370] RMSD: 0.559
> select #1/A:37
12 atoms, 11 bonds, 1 residue, 1 model selected
> select #1/A-B:37-161 #2/A-B:37-161 #3/A-B:37-161 #4/A-B:37-161 #5/A-B:37-161
20696 atoms, 20826 bonds, 58 pseudobonds, 1250 residues, 6 models selected
Clustal Omega Alignment [ID: 1] region chain A..chain B [37-161] RMSD: 0.557
> select /A,B:37-368
54486 atoms, 54996 bonds, 103 pseudobonds, 3320 residues, 6 models selected
> sequence chain #1/A,B#2/A,B#3/A,B#4/A,B#5/A,B
Alignment identifier is 2
> select up
60496 atoms, 61081 bonds, 103 pseudobonds, 3722 residues, 6 models selected
> select down
54486 atoms, 54996 bonds, 103 pseudobonds, 3320 residues, 6 models selected
> select clear
[Repeated 1 time(s)]
> sequence align /J
Must specify 2 or more protein sequences
> sequence align /C
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: 3GJNJYHZ4M8OOQXK
Webservices job finished: 3GJNJYHZ4M8OOQXK
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> select #1/C:121
14 atoms, 13 bonds, 1 residue, 1 model selected
> select #1/C:121-132 #2/C:121-132 #3/C:121-132 #4/C:121-132 #5/C:121-132
1055 atoms, 1065 bonds, 60 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain C..chain C [121-132] RMSD: 0.808
> color sel orange red
> select add #4/C:120
1069 atoms, 1078 bonds, 61 residues, 5 models selected
Drag select of 6 residues
Drag select of 7 residues
> select up
1561 atoms, 1574 bonds, 95 residues, 5 models selected
> select down
1083 atoms, 1078 bonds, 62 residues, 5 models selected
> color sel orange red
> color sel cornflower blue
> select #1/C:120
14 atoms, 13 bonds, 1 residue, 1 model selected
> select #1/C:120-134 #2/C:120-134 #3/C:120-134 #4/C:120-134 #5/C:120-134
1195 atoms, 1205 bonds, 75 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain C..chain C [120-134] RMSD: 1.293
> color sel cornflower blue
> contacts sel intraMol false interModel false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
161 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 O 0.129 2.351
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 O 0.114 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 O 0.106 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 O 0.101 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 O 0.079 3.101
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 O 0.074 3.106
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 O 0.055 3.125
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 CE 0.048 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 CD2 0.047 3.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE 0.046 3.134
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 O 0.046 2.434
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 0.038 3.142
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 85 C 0.034 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 C 0.030 2.670
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 C 0.027 2.673
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 CE 0.011 3.389
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 0.004 3.176
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 92 CD2 0.001 3.399
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.005 3.405
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 92 CD2 -0.026 3.426
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 O -0.037 2.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 92 CD2 -0.052 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 -0.070 3.250
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 -0.073 2.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 -0.085 2.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 -0.092 3.272
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 92 CD2 -0.092 2.792
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 85 C -0.094 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 C -0.098 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 93 OD1 -0.103 2.683
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CD -0.104 3.504
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.106 3.588
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 86 O -0.107 2.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 85 C -0.117 2.817
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 66 O -0.118 3.298
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 HD2 -0.124 2.824
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CD -0.128 3.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.135 3.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 C -0.140 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.142 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 CE -0.147 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 85 C -0.148 3.548
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 O -0.152 3.332
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 86 O -0.153 3.333
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.161 3.643
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 SD -0.169 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 92 CD2 -0.170 3.570
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HE3 -0.171 2.171
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 69 HG -0.177 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 CE -0.178 3.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 O -0.185 2.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 -0.188 2.768
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 N -0.191 3.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 N -0.195 2.820
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 HD2 -0.196 2.896
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 69 HG -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 HD2 -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.199 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 O -0.201 3.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 HD2 -0.207 2.907
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 69 HG -0.212 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.213 3.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HE3 -0.220 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 CD2 -0.220 2.920
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 HD2 -0.224 2.924
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CE -0.226 3.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.227 2.307
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 85 O -0.227 2.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 HD2 -0.228 2.928
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CD -0.229 3.629
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.229 3.011
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 69 HG -0.230 2.930
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HG3 -0.240 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 85 C -0.242 3.642
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.244 2.944
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 O -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 HZ1 -0.259 2.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 85 C -0.261 3.661
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.263 3.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 O -0.265 3.445
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 66 O -0.267 2.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 HA -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 HE1 -0.272 2.972
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.273 2.853
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 HD2 -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 121 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 93 OD1 -0.282 2.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 HE2 -0.282 2.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 HE1 -0.287 2.987
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CD -0.288 3.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 66 O -0.292 2.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 128 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.292 2.772
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 HA -0.293 2.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 66 O -0.294 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 HZ3 -0.295 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 HZ1 -0.295 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 HE1 -0.301 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 85 O -0.303 2.783
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 66 O -0.307 3.487
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 HD2 -0.310 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HG3 -0.310 2.310
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.313 2.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.315 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 O -0.315 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 92 HD23 -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 92 HD23 -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 HD23 -0.320 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 66 O -0.324 2.404
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 69 HG -0.326 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 SD -0.326 3.808
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CD -0.327 3.727
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.328 3.810
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 O -0.329 3.509
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 CE -0.330 3.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 69 CG -0.331 3.731
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 -0.332 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 HB1 -0.332 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CE -0.339 3.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.340 3.122
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.341 3.041
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CE -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 CD -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 CE -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 69 CG -0.344 3.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 128 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 66 O -0.345 2.825
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 CA -0.350 3.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 HE1 -0.352 2.977
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 C -0.352 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 69 CG -0.352 3.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 93 OD1 -0.362 3.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.364 3.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 HD2 -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ASP 93 OD1 -0.369 2.449
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 C -0.370 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 66 O -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CE -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 NZ -0.371 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 96 CD1 -0.373 3.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 NE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 66 O -0.373 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CD -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 NE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.378 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.379 3.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CD -0.381 3.781
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 HA -0.383 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 HB1 -0.385 3.085
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 69 CG -0.387 3.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 HE3 -0.388 2.388
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CE -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 92 CD2 -0.388 3.088
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 CD -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 CE -0.389 3.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 HD23 -0.395 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 NZ -0.395 3.100
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CD -0.396 3.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 HB2 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HE3 -0.397 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.397 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 CE -0.398 3.723
161 contacts
> sequence chain #1/A#2/A#3/A#4/A#5/A
Alignment identifier is 3
> sequence chain #1/C#2/C#3/C#4/C#5/C
Alignment identifier is 4
> select up
1142 atoms, 1111 bonds, 69 residues, 5 models selected
> select down
193 atoms, 69 residues, 5 models selected
> show sel atoms
> color sel byhetero
> style sel ball
Changed 193 atom styles
> view sel
> select up
1142 atoms, 1111 bonds, 69 residues, 5 models selected
> style sel ball
Changed 1142 atom styles
> show sel atoms
> color sel byhetero
> select #1/C:102
20 atoms, 20 bonds, 1 residue, 1 model selected
> select #1/C:102-111 #2/C:102-111 #3/C:102-111 #4/C:102-111 #5/C:102-111
810 atoms, 820 bonds, 50 residues, 5 models selected
Clustal Omega Alignment [ID: 2] region chain C..chain C [102-111] RMSD: 0.819
> view
> view sel
> contacts sel intraMol false interModel false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
235 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CB 0.229 2.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CB 0.209 2.991
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 HD2 0.187 2.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD 0.182 3.143
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 73 O 0.177 2.303
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 73 O 0.175 2.305
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CB 0.174 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CB 0.172 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 73 O 0.169 2.311
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CB 0.168 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 0.154 2.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 0.151 2.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 73 O 0.139 2.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 OE1 0.122 3.058
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 0.113 2.512
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 HD2 0.112 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 0.112 2.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 0.100 2.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 73 O 0.083 2.397
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HD2 0.074 2.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 0.045 3.135
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB 0.042 3.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 73 O 0.039 3.141
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 73 O 0.036 3.144
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD 0.034 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE1 0.023 3.157
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 73 O 0.021 3.159
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD 0.011 2.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CD2 0.000 3.180
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 73 O -0.003 3.183
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 56 CB -0.024 3.204
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CD2 -0.025 3.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.027 2.507
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 HB1 -0.028 2.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 -0.030 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.030 2.510
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 OE1 -0.033 2.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 CB -0.034 3.214
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.037 2.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 73 O -0.040 3.220
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 HB3 -0.050 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 CD -0.050 2.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 HB3 -0.050 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HB3 -0.055 2.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HB3 -0.056 2.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.061 3.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 CB -0.061 3.241
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CB -0.068 3.248
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 OE2 -0.071 2.551
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 50 HA -0.072 2.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 OE1 -0.073 3.253
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD -0.073 3.398
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.076 3.401
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB3 -0.077 2.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 HB3 -0.077 2.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CB -0.077 2.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HD2 -0.079 2.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB2 -0.083 2.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE1 -0.085 2.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CB -0.087 3.267
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 -0.089 2.569
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 HB3 -0.091 2.591
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CB -0.091 2.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CD2 -0.094 3.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 56 HB1 -0.094 2.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.100 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 CB -0.100 3.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 OE1 -0.104 3.284
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 103 OH -0.104 2.604
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB1 -0.105 2.805
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE1 -0.110 3.290
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HD2 -0.111 2.591
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CB -0.113 3.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.114 3.439
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 103 OH -0.114 2.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HB3 -0.114 2.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 50 HA -0.115 2.615
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CG -0.119 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.122 3.447
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD -0.130 3.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 56 CB -0.131 2.831
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CB -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 50 HA -0.133 2.633
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 CB -0.135 2.835
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 56 CB -0.140 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASN 259 O -0.140 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CB -0.142 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE1 -0.150 3.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 CB -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD -0.153 3.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 OE2 -0.156 3.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 HB2 -0.159 2.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB -0.172 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 CD -0.175 3.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 CG -0.175 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.177 2.177
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 50 HA -0.184 2.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.188 2.188
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 HB3 -0.192 2.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE1 -0.199 2.779
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HB2 -0.200 2.700
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 OE2 -0.200 3.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 103 CE2 -0.202 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HB3 -0.203 2.203
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CB -0.204 3.604
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 HB2 -0.212 2.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CB -0.216 2.916
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB3 -0.217 2.217
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HG2 -0.217 2.697
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HB2 -0.222 2.722
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.226 3.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.231 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 50 HA -0.234 2.734
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CB -0.235 2.935
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 410 HG -0.237 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 HH21 -0.237 2.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CD2 -0.238 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CB -0.238 3.638
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 103 OH -0.240 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.244 2.949
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.315 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 50 CA -0.316 3.516
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.333 2.958
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 50 CA -0.359 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 HE1 -0.361 2.361
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 OE2 -0.362 3.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CZ -0.362 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.363 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CG -0.366 3.566
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 HH21 -0.366 2.446
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ -0.369 3.769
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PRO 109 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 55 CD1 -0.370 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CB -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 107 CD -0.376 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 55 HD13 -0.378 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.379 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HG2 -0.381 2.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 HG2 -0.385 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 C -0.385 3.585
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 410 HG -0.385 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 73 O -0.386 2.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CB -0.387 3.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASN 259 O -0.388 2.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB2 -0.389 2.389
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HG2 -0.389 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 HH21 -0.389 2.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.390 2.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CG -0.391 3.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.397 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB2 -0.399 3.099
235 contacts
> select clear
> view
> sequence align /A
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: M9XH16CMI4JO5D1O
Webservices job finished: M9XH16CMI4JO5D1O
> sequence align /B
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: EP8ZTJ52SAI50O8K
Webservices job finished: EP8ZTJ52SAI50O8K
> sequence header 1 conservation hide
Hiding conservation header for alignment 1
> sequence header 1 rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header 1 conservation hide
> sequence header 1 rmsd show
> sequence header 3 conservation hide
Hiding conservation header for alignment 3
> sequence header 3 rmsd show
Chains used in RMSD evaluation for alignment 3:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 3
> sequence align /D
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: W7KR4C5CDGVIPOR1
Webservices job finished: W7KR4C5CDGVIPOR1
> sequence header 1 conservation hide
Hiding conservation header for alignment 1
> sequence header 1 rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> select #1/D:114-115
22 atoms, 21 bonds, 2 residues, 1 model selected
> select #1/D:114-125 #2/D:114-125 #3/D:114-125 #4/D:114-125 #5/D:114-125
900 atoms, 910 bonds, 60 residues, 5 models selected
Clustal Omega Alignment [ID: 1] region chain D..chain D [114-125] RMSD: 2.889
> color sel hot pink
> mmaker #5,4,3,2 & sel to #1 & sel
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain D
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain D
(#2), sequence alignment score = 58.5
RMSD between 11 pruned atom pairs is 0.694 angstroms; (across all 12 pairs:
1.519)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain D
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain D
(#3), sequence alignment score = 58.5
RMSD between 10 pruned atom pairs is 0.945 angstroms; (across all 12 pairs:
1.710)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain D
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain D
(#4), sequence alignment score = 58.5
RMSD between 9 pruned atom pairs is 1.448 angstroms; (across all 12 pairs:
2.353)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain D
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain D
(#5), sequence alignment score = 55.5
RMSD between 10 pruned atom pairs is 1.177 angstroms; (across all 12 pairs:
3.069)
> contacts sel intraMol false interModel false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
260 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O 0.252 2.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 C 0.241 2.939
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 CD 0.233 2.967
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A CYS 354 O 0.197 2.983
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O 0.189 2.991
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O 0.180 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 300 CG2 0.179 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASN 108 CG 0.167 3.158
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A CYS 354 O 0.149 2.811
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O 0.145 3.035
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 OE1 0.140 2.820
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 CA 0.121 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 299 HD1 0.100 2.600
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O 0.086 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 CD1 0.061 3.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HH 0.044 2.656
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLY 355 CA 0.035 3.145
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 CA 0.034 3.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O 0.019 3.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O 0.014 2.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 O 0.013 2.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASN 108 ND2 0.011 3.239
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O 0.008 3.172
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 358 OH 0.006 2.494
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 NZ 0.005 3.245
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 CA 0.002 3.323
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 118 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 OH -0.000 2.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O -0.003 2.483
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 HZ2 -0.009 2.009
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 300 OG1 -0.010 2.510
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B LYS 110 NZ -0.010 2.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASN 108 OD1 -0.015 3.195
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 HZ2 -0.021 2.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B LYS 110 HZ3 -0.024 2.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.026 3.226
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.030 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 NE2 -0.032 2.657
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA2 -0.037 2.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 OH -0.038 2.538
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.039 3.239
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 299 CD1 -0.045 3.445
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D GLN 117 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 298 O -0.051 2.531
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASN 108 OD1 -0.051 2.531
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O -0.054 2.534
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O -0.057 3.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 376 CG -0.058 3.458
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O -0.062 2.542
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O -0.068 2.548
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 118 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 358 OH -0.070 2.570
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 HA -0.073 2.698
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D GLN 117 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 298 O -0.074 2.554
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.078 3.278
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 300 HG22 -0.079 2.559
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D GLN 117 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 297 O -0.086 2.791
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 300 HG23 -0.088 2.568
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 119 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 HE2 -0.089 2.569
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 358 OH -0.093 3.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 O -0.094 3.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 107 HG2 -0.097 2.722
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O -0.099 2.804
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 CD1 -0.106 3.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B LYS 110 NZ -0.108 3.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O -0.109 3.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 CE2 -0.117 3.297
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 125 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 104 OD2 -0.120 2.600
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 C -0.122 2.822
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 361 NH1 -0.123 3.448
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O -0.125 2.830
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 CE -0.127 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 O -0.129 2.609
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 118 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 358 HH -0.131 2.131
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D GLN 117 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 298 O -0.131 3.311
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O -0.137 2.617
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 CG2 -0.138 2.838
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 107 CD -0.138 3.463
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 NE2 -0.138 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLN 117 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 297 O -0.139 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 358 OH -0.141 3.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O -0.142 2.622
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 107 HG2 -0.146 2.146
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 C -0.147 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 125 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 104 OD1 -0.148 2.628
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 117 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 297 O -0.149 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O -0.155 3.335
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASN 108 OD1 -0.156 3.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 CD -0.156 2.856
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 HZ2 -0.159 2.784
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 HZ2 -0.161 2.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA3 -0.163 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 NZ -0.165 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 107 CG -0.167 3.492
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B LYS 110 HZ3 -0.168 2.793
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D SER 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 104 OD2 -0.168 3.348
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B LYS 110 NZ -0.175 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 HA -0.178 2.803
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 361 HH12 -0.179 2.179
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 CE2 -0.182 2.882
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 HA -0.182 2.182
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D GLN 117 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 297 O -0.182 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASN 108 OD1 -0.187 2.892
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 CG2 -0.190 3.590
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HE2 -0.194 2.194
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 HE2 -0.200 2.200
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O -0.202 3.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 119 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 CE2 -0.202 3.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 CA -0.204 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 -0.204 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 HG21 -0.204 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O -0.205 2.285
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 HA -0.210 2.210
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 CD1 -0.210 2.910
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 HD11 -0.217 2.917
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 CG2 -0.228 3.628
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 104 OD1 -0.230 3.410
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 N -0.231 3.481
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 CE2 -0.234 2.934
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 O -0.234 2.714
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fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASN 108 CG -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 CB -0.240 3.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D GLN 117 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 298 O -0.240 3.420
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 OH -0.240 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 299 CD1 -0.243 2.943
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 CZ -0.243 3.423
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.244 2.824
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 299 HD1 -0.246 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 376 HG2 -0.247 2.947
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 HE3 -0.249 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA3 -0.249 2.729
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 104 OD2 -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 NE2 -0.250 3.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 O -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 HH -0.252 2.332
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 HE2 -0.253 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 299 HD1 -0.253 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 299 HD1 -0.254 2.254
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D GLN 117 HE21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 297 O -0.254 2.334
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 125 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 104 CG -0.257 2.957
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 356 CB -0.259 2.959
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D SER 125 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 104 OD2 -0.259 2.739
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D GLN 117 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 298 C -0.260 3.585
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 302 OD2 -0.262 2.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 300 OG1 -0.264 3.464
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 358 HH -0.266 2.266
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.269 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASN 108 OD1 -0.271 2.351
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HE2 -0.272 2.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 CD1 -0.273 2.973
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 -0.278 2.278
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 123 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASN 108 OD1 -0.279 2.359
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 300 OG1 -0.279 3.479
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B LYS 110 HZ1 -0.280 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 CD -0.283 3.608
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 118 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 OH -0.284 2.784
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 NZ -0.284 3.609
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 HE22 -0.286 2.911
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA2 -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D SER 125 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 104 OD1 -0.286 2.766
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 O -0.287 3.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 C -0.289 3.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 O -0.289 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 N -0.289 2.914
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 118 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 358 HH -0.294 2.994
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 HE2 -0.296 2.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 107 CG -0.299 2.999
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 CD1 -0.302 3.002
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 HG21 -0.303 2.303
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 OE1 -0.303 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 356 CA -0.304 3.004
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 CA -0.305 3.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B LYS 110 CD -0.306 3.006
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D GLN 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 298 O -0.306 3.486
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLY 355 HA3 -0.306 3.006
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 CA -0.308 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 CG -0.309 3.709
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 CE1 -0.309 3.709
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 115 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 376 CG -0.314 3.014
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PRO 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 300 HG21 -0.315 2.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HH -0.315 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 CE2 -0.316 3.496
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 117 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 298 O -0.317 2.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D SER 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 104 OD1 -0.318 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 NE2 -0.319 3.644
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 382 HD11 -0.320 2.320
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 C -0.323 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O -0.324 3.504
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 362 CD1 -0.324 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 299 CD1 -0.325 3.725
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O -0.326 2.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 123 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 385 CD -0.328 3.653
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B LYS 110 CE -0.328 3.653
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 OH -0.329 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 118 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 HB3 -0.330 2.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 380 HG3 -0.332 2.812
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASN 108 OD1 -0.333 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O -0.333 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASN 108 CG -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HH -0.343 2.968
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 HH -0.345 3.045
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 115 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 376 HG2 -0.345 2.345
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 OE1 -0.346 2.426
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 125 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 104 OD1 -0.346 2.426
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 N -0.348 2.973
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 302 OD2 -0.349 2.429
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PRO 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 300 HG21 -0.349 3.049
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 119 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 HH -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HE2 -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 HE2 -0.354 2.979
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 CE -0.354 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLN 117 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 297 O -0.356 3.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O -0.357 2.837
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D MET 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O -0.358 3.318
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O -0.360 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 361 HH12 -0.362 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 SD -0.363 3.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 CD -0.363 3.543
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 298 O -0.364 3.324
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 380 CG -0.364 3.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B LYS 110 HE3 -0.365 2.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 O -0.366 3.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 -0.366 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O -0.367 3.547
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 HZ2 -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA3 -0.367 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 298 O -0.370 2.850
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 C -0.370 3.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 125 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 104 CG -0.371 3.571
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D SER 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 104 CG -0.373 3.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA3 -0.377 2.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D SER 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 376 HG3 -0.380 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 302 OD2 -0.380 3.560
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B LYS 110 CE -0.381 3.081
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA2 -0.382 2.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 119 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 HH -0.382 2.462
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 123 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B LYS 110 HE3 -0.383 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 CZ -0.384 3.084
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 123 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 385 HB3 -0.388 2.388
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D PRO 119 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 362 CE1 -0.388 3.088
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D SER 114 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 378 NE2 -0.388 3.013
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D GLN 117 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 297 O -0.388 3.568
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 302 OD2 -0.388 3.093
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PRO 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 300 CG2 -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 118 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 362 CD1 -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 362 CG -0.391 3.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 386 OH -0.391 3.591
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D GLN 117 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 300 CG2 -0.392 3.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 122 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 302 CA -0.394 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 362 CD1 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B LYS 110 HZ3 -0.399 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D SER 125 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 104 CG -0.400 3.100
260 contacts
> sequence chain #1/A,B#2/A,B#3/A,B#4/A,B#5/A,B
Alignment identifier is 3
> sequence chain #1/D#2/D#3/D#4/D#5/D
Alignment identifier is 4
> select up
1468 atoms, 1443 bonds, 88 residues, 5 models selected
> select down
276 atoms, 88 residues, 5 models selected
> mmaker #5,4,3,2 & sel to #1 & sel
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain D
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain D
(#2), sequence alignment score = 24.2
RMSD between 5 pruned atom pairs is 0.804 angstroms; (across all 5 pairs:
0.804)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 18.1
RMSD between 3 pruned atom pairs is 0.235 angstroms; (across all 3 pairs:
0.235)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 28.2
RMSD between 5 pruned atom pairs is 0.376 angstroms; (across all 5 pairs:
0.376)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 23.5
RMSD between 4 pruned atom pairs is 0.339 angstroms; (across all 4 pairs:
0.339)
> sequence align /A
Alignment identifier is 5
Showing conservation header ("seq_conservation" residue attribute) for
alignment 5
Webservices job id: 7TKNHSGHL9VO63K4
Webservices job finished: 7TKNHSGHL9VO63K4
> sequence header 15conservation hide
Should be one of 'consensus', 'conservation', or 'rmsd'
> sequence header 1 conservation hide
> sequence header 1 rmsd show
> sequence header 5 conservation hide
Hiding conservation header for alignment 5
> sequence header 5 rmsd show
Chains used in RMSD evaluation for alignment 5:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 5
> select up
1468 atoms, 1443 bonds, 88 residues, 5 models selected
> mmaker #5,4,3,2/A,B to #1/A,B pairing ss
Different number of reference/match chains (2 ref, 8 match)
> mmaker #5,4,3,2/A,B to #1/A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 2085.4
RMSD between 329 pruned atom pairs is 0.414 angstroms; (across all 425 pairs:
23.380)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 2019.4
RMSD between 317 pruned atom pairs is 0.430 angstroms; (across all 425 pairs:
24.391)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 2032.6
RMSD between 336 pruned atom pairs is 0.348 angstroms; (across all 425 pairs:
34.779)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain A
(#2), sequence alignment score = 2059
RMSD between 334 pruned atom pairs is 0.363 angstroms; (across all 425 pairs:
34.100)
> sequence align /C
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: KKXBEZ4V3I4KJ5DP
Webservices job finished: KKXBEZ4V3I4KJ5DP
> sequence header 3 conservation hide
Hiding conservation header for alignment 3
> sequence header 3 rmsd show
Chains used in RMSD evaluation for alignment 3:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 3
> select #1/C:124
24 atoms, 25 bonds, 1 residue, 1 model selected
> select #1/C:124 #2/C:124 #3/C:124 #4/C:124 #5/C:124
120 atoms, 125 bonds, 5 residues, 5 models selected
Clustal Omega Alignment [ID: 3] region chain C..chain C [124] RMSD: 0.693
> select #1/A:353
17 atoms, 16 bonds, 1 residue, 1 model selected
> select #1/A:353-355 #2/A:353-355 #3/A:353-355 #4/A:353-355 #5/A:353-355
175 atoms, 170 bonds, 15 residues, 5 models selected
Clustal Omega Alignment [ID: 5] region chain A..chain A [353-355] RMSD: 0.632
> select /A,B:353-355
350 atoms, 340 bonds, 30 residues, 5 models selected
> color sel blue
> contacts sel intraMol false interModel false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
163 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 O 0.252 2.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 O 0.241 2.939
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D MET 121 C 0.197 2.983
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CA 0.189 2.991
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CG 0.180 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D MET 121 O 0.149 2.811
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D MET 121 C 0.145 3.035
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 O 0.121 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 160 CA 0.120 3.060
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 121 NE2 0.111 3.214
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 NE2 0.095 3.230
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CD 0.086 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 121 HE2 0.045 2.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 121 NE2 0.036 3.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 O 0.035 3.145
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C 0.034 3.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B HIS 121 HE2 0.021 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C 0.019 3.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HD2 0.014 2.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B HIS 121 NE2 0.013 3.312
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HG3 0.013 2.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 C 0.008 3.172
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HG3 -0.003 2.483
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 201 CB -0.012 3.412
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 160 HA -0.013 2.493
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 O -0.037 2.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B HIS 121 NE2 -0.046 2.671
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 HE2 -0.048 2.748
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HA -0.054 2.534
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH2 -0.057 2.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 ND2 -0.057 2.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CB -0.057 3.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 193 HB2 -0.058 2.538
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B HIS 121 NE2 -0.059 3.384
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HB2 -0.062 2.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 121 HE2 -0.067 2.767
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 HB2 -0.068 2.548
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 163 CB -0.070 2.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 121 NE2 -0.071 2.696
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 NE2 -0.071 3.396
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 CE1 -0.084 3.484
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 NE2 -0.085 2.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 CB -0.088 3.268
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH2 -0.092 3.417
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CD -0.094 3.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 ND2 -0.099 3.424
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 N -0.099 2.804
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 CB -0.106 3.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CB -0.109 3.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 193 CB -0.111 3.291
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 HE2 -0.116 2.116
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 NE2 -0.122 2.747
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HB2 -0.122 2.822
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 N -0.125 2.830
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B HIS 121 CE1 -0.126 3.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 NH2 -0.127 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HD2 -0.129 2.609
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 HE2 -0.132 2.132
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HB2 -0.137 2.617
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 HB -0.137 2.837
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 -0.142 2.622
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 121 HE2 -0.144 2.144
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 -0.147 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 HA -0.151 2.851
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 CE1 -0.155 3.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CA -0.155 3.335
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 201 HB3 -0.162 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CZ -0.163 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C -0.163 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B HIS 121 HE2 -0.168 2.168
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 163 CB -0.172 3.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH1 -0.178 2.803
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B HIS 121 NE2 -0.180 3.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 HE2 -0.182 2.882
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HH11 -0.182 2.182
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 120 O -0.183 3.445
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B HIS 121 HE2 -0.191 2.891
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B HIS 121 NE2 -0.192 2.817
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 CE1 -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 160 CB -0.200 3.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CB -0.202 3.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 -0.204 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CG -0.204 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 H -0.205 2.285
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 CE1 -0.206 3.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 163 OG -0.206 3.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B HIS 121 HE2 -0.208 2.208
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B HIS 121 HE2 -0.208 2.208
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 CG2 -0.208 2.908
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B HIS 121 NE2 -0.225 2.850
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 121 HE2 -0.233 2.233
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 HB2 -0.234 2.714
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH1 -0.238 3.563
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 121 NE2 -0.242 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 HD21 -0.247 2.947
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 121 NE2 -0.247 2.872
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 NH2 -0.249 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 160 HG3 -0.249 2.729
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 O -0.249 2.729
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B HIS 121 HE2 -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CG -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 NH2 -0.253 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 HD3 -0.253 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 159 C -0.257 3.437
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 CB -0.264 2.964
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 160 CG -0.273 3.453
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 -0.278 2.278
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 ND2 -0.280 3.605
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 163 OG -0.280 2.780
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 159 HB1 -0.283 2.283
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 C -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 HD21 -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 CB -0.287 3.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 CG2 -0.287 3.687
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 CB -0.289 3.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB -0.289 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB -0.305 3.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 CB -0.306 3.006
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 201 CB -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A HIS 121 NE2 -0.318 2.943
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 163 HB3 -0.321 2.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 C -0.323 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 CB -0.324 3.504
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 H -0.326 2.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 121 HE2 -0.329 2.329
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B HIS 121 NE2 -0.331 2.956
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 N -0.333 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 OD1 -0.335 2.815
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 HD21 -0.336 2.416
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 353 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 120 CD -0.336 3.818
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 120 HB3 -0.337 3.119
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B HIS 121 HE2 -0.337 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 201 HB3 -0.338 2.338
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 HB -0.347 2.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 121 CE1 -0.348 3.748
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HB2 -0.348 2.973
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 159 CB -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CZ -0.354 3.754
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B CYS 354 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 191 HD21 -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 NH2 -0.354 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 HG21 -0.355 2.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 HB2 -0.357 2.837
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D MET 121 O -0.358 3.318
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 N -0.360 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 353 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 NH1 -0.363 3.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH1 -0.365 2.990
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 123 CG -0.366 3.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D ARG 122 HG3 -0.366 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D MET 121 CA -0.367 3.547
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D MET 121 HB2 -0.367 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CZ -0.370 3.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A CYS 354 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D ARG 122 CA -0.370 3.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CD -0.373 3.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLY 355 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 163 CB -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D MET 121 HB2 -0.377 2.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D THR 126 HB -0.380 2.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLY 355 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D ARG 122 HA -0.382 2.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B CYS 354 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 160 N -0.389 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CA -0.394 3.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A MET 353 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D THR 126 HG21 -0.394 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 353 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D THR 126 CB -0.398 3.098
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 121 NE2 -0.398 3.023
163 contacts
> open
> /Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33679
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif
Summary of feedback from opening
/Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33674
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif
Summary of feedback from opening
/Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33674
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif
Summary of feedback from opening
/Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33673
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif
Summary of feedback from opening
/Users/pcarlton/k00cele_spo_11x2_dsb123_mg4_splitdna2b/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33676
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> select clear
> hide atoms
> show cartoons
Computing secondary structure
[Repeated 4 time(s)]
> color bychain
> select clear
[Repeated 1 time(s)]
> mmaker #10,9,8,7,6,5,4,3,2/A to #1/A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif, chain A
(#10), sequence alignment score = 2058.4
RMSD between 323 pruned atom pairs is 0.467 angstroms; (across all 425 pairs:
33.836)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif, chain A
(#9), sequence alignment score = 2065
RMSD between 331 pruned atom pairs is 0.446 angstroms; (across all 425 pairs:
38.004)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif, chain A
(#8), sequence alignment score = 1948
RMSD between 330 pruned atom pairs is 0.434 angstroms; (across all 425 pairs:
25.235)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif, chain A
(#7), sequence alignment score = 2004.4
RMSD between 334 pruned atom pairs is 0.477 angstroms; (across all 425 pairs:
15.645)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 2085.4
RMSD between 329 pruned atom pairs is 0.414 angstroms; (across all 425 pairs:
23.380)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 2019.4
RMSD between 317 pruned atom pairs is 0.430 angstroms; (across all 425 pairs:
24.391)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 2032.6
RMSD between 336 pruned atom pairs is 0.348 angstroms; (across all 425 pairs:
34.779)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain A
(#2), sequence alignment score = 2059
RMSD between 334 pruned atom pairs is 0.363 angstroms; (across all 425 pairs:
34.100)
Drag select of 42 residues
> sequence chain #1/D#2/D#3/D#4/D
Alignment identifier is 6
> sequence chain #7/C#9/C
Alignment identifier is 7
> select up
5307 atoms, 5333 bonds, 344 residues, 6 models selected
> select down
628 atoms, 42 residues, 6 models selected
> select /A
68423 atoms, 69073 bonds, 53 pseudobonds, 4250 residues, 11 models selected
> select ~sel
267090 atoms, 272317 bonds, 207 pseudobonds, 15590 residues, 22 models
selected
> hide sel cartoons
> select clear
> mmaker #10,9,8,7,6,5,4,3,2/A:50-300 to #1/A:50-300
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif, chain A
(#10), sequence alignment score = 1241
RMSD between 251 pruned atom pairs is 0.470 angstroms; (across all 251 pairs:
0.470)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif, chain A
(#9), sequence alignment score = 1245.2
RMSD between 251 pruned atom pairs is 0.437 angstroms; (across all 251 pairs:
0.437)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif, chain A
(#8), sequence alignment score = 1187.6
RMSD between 250 pruned atom pairs is 0.422 angstroms; (across all 251 pairs:
0.442)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif, chain A
(#7), sequence alignment score = 1208
RMSD between 251 pruned atom pairs is 0.453 angstroms; (across all 251 pairs:
0.453)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 1265
RMSD between 251 pruned atom pairs is 0.384 angstroms; (across all 251 pairs:
0.384)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 1203.8
RMSD between 251 pruned atom pairs is 0.373 angstroms; (across all 251 pairs:
0.373)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 1257.8
RMSD between 251 pruned atom pairs is 0.280 angstroms; (across all 251 pairs:
0.280)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain A
(#2), sequence alignment score = 1246.4
RMSD between 251 pruned atom pairs is 0.313 angstroms; (across all 251 pairs:
0.313)
Drag select of 3003 residues, 6 pseudobonds
> select clear
> select /A
68423 atoms, 69073 bonds, 53 pseudobonds, 4250 residues, 11 models selected
> select #10
33548 atoms, 34135 bonds, 14 pseudobonds, 1984 residues, 2 models selected
> select /A:50-300
40993 atoms, 41393 bonds, 48 pseudobonds, 2510 residues, 11 models selected
> select /A:50-150
16956 atoms, 17066 bonds, 29 pseudobonds, 1010 residues, 11 models selected
> mmaker #10,9,8,7,6,5,4,3,2/A:50-160 to #1/A:50-160
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif, chain A
(#10), sequence alignment score = 566.8
RMSD between 111 pruned atom pairs is 0.391 angstroms; (across all 111 pairs:
0.391)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif, chain A
(#9), sequence alignment score = 556
RMSD between 111 pruned atom pairs is 0.352 angstroms; (across all 111 pairs:
0.352)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif, chain A
(#8), sequence alignment score = 539.2
RMSD between 111 pruned atom pairs is 0.349 angstroms; (across all 111 pairs:
0.349)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif, chain A
(#7), sequence alignment score = 541
RMSD between 111 pruned atom pairs is 0.332 angstroms; (across all 111 pairs:
0.332)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 563.2
RMSD between 111 pruned atom pairs is 0.339 angstroms; (across all 111 pairs:
0.339)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 529
RMSD between 111 pruned atom pairs is 0.257 angstroms; (across all 111 pairs:
0.257)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 563.8
RMSD between 111 pruned atom pairs is 0.254 angstroms; (across all 111 pairs:
0.254)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain A
(#2), sequence alignment score = 541.6
RMSD between 111 pruned atom pairs is 0.254 angstroms; (across all 111 pairs:
0.254)
Drag select of 11 residues
> select up
1280 atoms, 1287 bonds, 85 residues, 3 models selected
> sequence chain #2/A#3/A#9/A
Alignment identifier is 1
> select up
20525 atoms, 20720 bonds, 1275 residues, 3 models selected
> select down
1280 atoms, 1287 bonds, 85 residues, 3 models selected
> select #2/A:356 #3/A:356 #9/A:356
51 atoms, 48 bonds, 3 residues, 3 models selected
> select #2/A:356-425 #3/A:356-425 #9/A:356-425
3276 atoms, 3300 bonds, 210 residues, 3 models selected
1 [ID: 1] region 3 chains [356-425] RMSD: 24.333
> select /B
68415 atoms, 69065 bonds, 46 pseudobonds, 4250 residues, 11 models selected
> show sel cartoons
> select clear
> select #11/B:160
24 atoms, 23 bonds, 1 residue, 1 model selected
> select up
69 atoms, 68 bonds, 4 residues, 1 model selected
> select up
6843 atoms, 6908 bonds, 425 residues, 1 model selected
> close #6
> mmaker #11,10,9,8,7,5,4,3,2/A:50-160 to #1/A:50-160
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain A
(#11), sequence alignment score = 557.8
RMSD between 111 pruned atom pairs is 0.293 angstroms; (across all 111 pairs:
0.293)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif, chain A
(#10), sequence alignment score = 566.8
RMSD between 111 pruned atom pairs is 0.391 angstroms; (across all 111 pairs:
0.391)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif, chain A
(#9), sequence alignment score = 556
RMSD between 111 pruned atom pairs is 0.352 angstroms; (across all 111 pairs:
0.352)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif, chain A
(#8), sequence alignment score = 539.2
RMSD between 111 pruned atom pairs is 0.349 angstroms; (across all 111 pairs:
0.349)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif, chain A
(#7), sequence alignment score = 541
RMSD between 111 pruned atom pairs is 0.332 angstroms; (across all 111 pairs:
0.332)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif, chain A
(#5), sequence alignment score = 563.2
RMSD between 111 pruned atom pairs is 0.339 angstroms; (across all 111 pairs:
0.339)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif, chain A
(#4), sequence alignment score = 529
RMSD between 111 pruned atom pairs is 0.257 angstroms; (across all 111 pairs:
0.257)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif, chain A
(#3), sequence alignment score = 563.8
RMSD between 111 pruned atom pairs is 0.254 angstroms; (across all 111 pairs:
0.254)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif, chain A
(#2), sequence alignment score = 541.6
RMSD between 111 pruned atom pairs is 0.254 angstroms; (across all 111 pairs:
0.254)
> select clear
> select /A,B:365-425
18600 atoms, 18720 bonds, 1220 residues, 10 models selected
> select /A,B:385-425
12060 atoms, 12120 bonds, 820 residues, 10 models selected
> hide sel cartoons
Drag select of 3 residues
> select up
454 atoms, 460 bonds, 31 residues, 1 model selected
> select /A,B:1-30
8860 atoms, 8980 bonds, 600 residues, 10 models selected
> hide sel cartoons
> select clear
[Repeated 1 time(s)]
> select /C
59610 atoms, 60330 bonds, 3850 residues, 10 models selected
> show sel cartoons
> sequence align /C
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: BQVZ13OODGVRFUC1
Webservices job finished: BQVZ13OODGVRFUC1
> sequence header conservation hide
Hiding conservation header for alignment 1
> sequence header rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header rmsd save browse
> select clear
> select #1/C:148 #2/C:148
38 atoms, 36 bonds, 2 residues, 2 models selected
> select #1/C:148-307 #2/C:148-307 #3/C:148-307 #4/C:148-307 #5/C:148-307
> #7/C:148-307 #8/C:148-307 #9/C:148-307 #10/C:148-307 #11/C:148-307
23047 atoms, 23397 bonds, 1600 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [148-307] RMSD: 66.279
> select clear
> select /C:148-385
35794 atoms, 36274 bonds, 2380 residues, 10 models selected
> hide sel cartoons
> select clear
> select /D
44074 atoms, 44514 bonds, 2800 residues, 10 models selected
> sequence align /D
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: 6IW1UF87C4RWXQYP
Webservices job finished: 6IW1UF87C4RWXQYP
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> select #1/D:114
11 atoms, 10 bonds, 1 residue, 1 model selected
> select #1/D:114-121 #2/D:114-121 #3/D:114-121 #4/D:114-121 #5/D:114-121
> #7/D:114-121 #8/D:114-121 #9/D:114-121 #10/D:114-121 #11/D:114-121
1090 atoms, 1110 bonds, 80 residues, 10 models selected
Clustal Omega Alignment [ID: 2] region chain D..chain D [114-121] RMSD: 63.385
> show sel cartoons
> show sel atoms
> select /D:1-100
16245 atoms, 16395 bonds, 1000 residues, 10 models selected
> show sel cartoons
> select /D
44074 atoms, 44514 bonds, 2800 residues, 10 models selected
> transparency sel 90 ribbons
> hide sel atoms
> select clear
> graphics silhouettes false
> lighting soft
> lighting simple
> sequence align /E
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: 7PFUZDICVXJI2VQ4
Webservices job finished: 7PFUZDICVXJI2VQ4
> sequence header 3 rmsd show
Chains used in RMSD evaluation for alignment 3:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 3
> sequence header 3 conservation hide
Hiding conservation header for alignment 3
> select #1/E:224
21 atoms, 21 bonds, 1 residue, 1 model selected
> select #1/E:224 #2/E:224 #3/E:224 #4/E:224 #5/E:224 #7/E:224 #8/E:224
> #9/E:224 #10/E:224
189 atoms, 189 bonds, 9 residues, 9 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [224] RMSD: 1.339
> show sel atoms
> select up
3381 atoms, 3408 bonds, 206 residues, 9 models selected
> show sel cartoons
> contacts sel interModel false intraMol false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
578 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 O 0.270 2.690
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 O 0.266 2.694
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 O 0.258 2.702
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 O 0.254 2.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 O 0.206 2.754
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 NH1 0.189 3.061
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 O 0.177 3.003
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 CZ 0.176 3.004
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 O 0.164 3.016
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 O 0.159 3.021
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 O 0.153 3.027
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 O 0.152 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH12 0.149 2.476
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 O 0.148 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 O 0.147 3.033
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 O 0.143 3.037
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 O 0.137 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 O 0.130 3.050
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 176 NH2 0.120 3.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 O 0.113 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH22 0.111 2.514
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 221 CZ 0.095 3.085
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH1 0.088 3.162
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 CZ 0.087 3.238
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 HH22 0.078 2.622
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 0.059 3.191
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 CB 0.058 2.642
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH1 0.054 3.271
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 193 O 0.051 3.129
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 176 HH22 0.049 2.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 O 0.048 3.132
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH1 0.043 3.282
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH1 0.043 3.282
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 CB 0.039 3.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A THR 23 CG2 0.038 3.142
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 193 O 0.036 3.144
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 CB 0.025 2.675
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 CD 0.023 3.302
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH1 0.022 3.228
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 O 0.015 3.165
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH1 0.012 3.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 193 O 0.012 2.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 O 0.009 3.171
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 HE22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH22 0.007 1.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 0.004 3.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 O 0.004 3.176
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 174 CB 0.004 3.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 O -0.000 3.180
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 O -0.003 2.963
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH1 -0.011 3.261
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 174 CB -0.011 3.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 221 CZ -0.012 3.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH12 -0.012 2.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 CG2 -0.014 3.414
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 HH22 -0.015 2.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 HA -0.015 2.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 -0.016 3.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 380 OE2 -0.021 2.981
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 O -0.023 3.203
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 174 CB -0.024 3.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 CB -0.024 2.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 221 HH12 -0.025 2.725
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 380 CG -0.027 3.207
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 CG2 -0.027 3.427
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 174 CB -0.030 2.730
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH1 -0.031 3.356
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 CG2 -0.033 3.433
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 CG2 -0.033 3.433
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH1 -0.035 3.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 HA -0.036 2.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 NH2 -0.037 2.662
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 O -0.037 2.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 176 NH2 -0.037 3.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A THR 23 HG21 -0.038 2.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 NH2 -0.040 2.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 O -0.041 2.521
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 221 CZ -0.044 3.224
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 CZ -0.045 3.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 O -0.053 2.533
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 O -0.055 3.235
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 O -0.057 3.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 CZ -0.057 3.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 O -0.058 2.538
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 O -0.061 3.241
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH1 -0.065 3.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 HA -0.066 2.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH1 -0.067 3.392
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 193 O -0.073 2.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 O -0.074 2.554
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 HA -0.075 2.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 O -0.076 2.556
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 176 HH22 -0.078 2.778
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 O -0.078 2.558
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 HA -0.081 2.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 O -0.081 3.261
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 174 HB3 -0.081 2.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 O -0.082 3.262
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 O -0.085 2.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 CG2 -0.088 3.488
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E THR 233 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CD1 -0.088 3.488
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH1 -0.089 3.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 HH12 -0.091 2.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 CG2 -0.092 3.492
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 O -0.093 3.273
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 CD -0.095 2.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 176 CZ -0.097 3.422
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 CG2 -0.099 2.799
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH2 -0.101 2.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 CG2 -0.101 2.801
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 O -0.102 2.582
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 HB3 -0.103 2.728
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 NH2 -0.104 2.729
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 176 NH2 -0.107 3.432
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 O -0.108 2.588
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 HH22 -0.109 2.809
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E THR 233 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 192 HD13 -0.110 2.810
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E THR 233 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 192 CD1 -0.111 3.511
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH21 -0.113 2.813
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 NH2 -0.115 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 176 HH22 -0.115 2.815
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 CG2 -0.118 3.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 -0.118 3.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 174 HB3 -0.123 2.748
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 NH2 -0.125 3.450
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 174 HB3 -0.125 2.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH1 -0.127 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 CB -0.129 3.454
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B VAL 172 HG11 -0.130 2.830
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH2 -0.130 2.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 192 CG2 -0.131 3.531
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 176 NH2 -0.131 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B VAL 172 HG11 -0.133 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A VAL 177 CG2 -0.133 3.458
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 CB -0.133 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 176 HH22 -0.135 2.135
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 221 CZ -0.137 3.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 210 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH1 -0.137 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ARG 176 CZ -0.137 3.462
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ARG 176 HH22 -0.138 2.838
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 174 HB3 -0.138 2.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 176 NH2 -0.140 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 CB -0.141 2.841
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 NH1 -0.141 3.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 N -0.142 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 CG2 -0.143 2.843
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 O -0.144 3.104
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 176 NH2 -0.145 3.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 HA -0.146 2.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 O -0.146 2.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLU 194 CD -0.146 2.846
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 174 CB -0.147 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH1 -0.148 3.398
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 192 CD1 -0.150 2.850
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 CA -0.151 3.331
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 221 NH2 -0.151 2.856
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ARG 176 NH2 -0.152 2.857
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH22 -0.153 2.153
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 -0.153 3.478
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B VAL 172 HG11 -0.154 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 HG22 -0.154 2.154
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH22 -0.155 2.155
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A VAL 172 HG11 -0.156 2.856
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 CA -0.158 3.338
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 177 CG2 -0.159 3.484
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 C -0.159 3.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 176 NH2 -0.159 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 174 CB -0.160 3.485
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 CA -0.161 3.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 HH22 -0.161 2.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH22 -0.162 2.162
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 192 O -0.162 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 HE22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 -0.162 2.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 192 CD1 -0.164 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 HA -0.164 2.644
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH12 -0.165 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 194 CD -0.165 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CD1 -0.168 2.868
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 221 NH2 -0.169 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE2 -0.169 3.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 HH22 -0.169 2.169
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 192 O -0.169 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 221 NH1 -0.170 2.875
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 HH12 -0.170 2.170
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 192 HA -0.171 2.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 HG21 -0.171 2.171
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 HB3 -0.172 2.172
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A VAL 172 HG11 -0.173 2.873
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 CG2 -0.173 2.873
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 174 HB3 -0.173 2.173
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 194 HB3 -0.173 2.873
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 NH2 -0.173 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 CB -0.174 3.499
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 176 NH2 -0.174 2.799
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 CZ -0.175 3.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 NH2 -0.176 3.501
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 HH12 -0.176 2.876
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 CG2 -0.177 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B VAL 172 CG1 -0.178 3.578
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 172 HG11 -0.178 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 174 CB -0.178 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 174 HB3 -0.178 2.178
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 172 HG11 -0.179 2.879
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 192 O -0.179 2.884
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 174 CB -0.180 3.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ARG 176 NH2 -0.181 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 176 NH2 -0.181 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH1 -0.181 3.431
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ARG 176 NH2 -0.182 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 O -0.183 2.663
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH12 -0.183 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ARG 176 HH22 -0.185 2.885
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 HH22 -0.186 2.186
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 HH12 -0.187 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 O -0.188 2.668
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 HH12 -0.189 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 HG21 -0.189 2.189
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 221 NH2 -0.189 2.894
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 NH2 -0.189 3.439
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 CB -0.191 3.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 221 NH2 -0.192 3.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 174 HB3 -0.192 2.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 HH22 -0.193 2.193
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 176 NH2 -0.193 2.818
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH22 -0.194 2.894
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ARG 176 NH2 -0.196 3.521
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 N -0.196 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 -0.197 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 CA -0.197 3.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 174 CB -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 177 HG21 -0.198 2.823
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A VAL 172 HG11 -0.198 2.898
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 194 HB3 -0.198 2.898
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 NH2 -0.199 3.524
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B VAL 172 HG11 -0.200 2.900
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 O -0.200 3.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 NH2 -0.200 3.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH22 -0.201 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 176 HH22 -0.201 2.201
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 O -0.202 3.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 CG2 -0.203 2.903
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A VAL 172 HG11 -0.203 2.903
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 HG21 -0.204 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 HB3 -0.205 2.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 NH1 -0.205 3.455
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 192 CD1 -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 174 CB -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 NH2 -0.206 2.911
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 N -0.207 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 221 HH22 -0.207 2.287
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 176 NH2 -0.207 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 HH22 -0.207 2.207
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH2 -0.207 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE1 -0.208 2.913
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 HG21 -0.208 2.208
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 174 HB3 -0.209 2.209
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 OH -0.209 2.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 HH22 -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASP 174 CB -0.211 3.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH2 -0.211 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 HG22 -0.212 2.837
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ARG 176 NH2 -0.212 3.537
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 CB -0.213 3.538
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 176 NH2 -0.213 2.838
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 221 NH1 -0.214 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 -0.215 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 174 OD2 -0.215 2.920
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 192 CD1 -0.217 2.917
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 HH22 -0.218 2.218
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 NH1 -0.218 2.843
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 NH2 -0.219 3.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 -0.219 3.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 HH12 -0.220 2.920
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 HG21 -0.221 2.921
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ARG 176 NH2 -0.222 3.547
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E THR 233 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 HD13 -0.225 2.925
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 176 NH2 -0.226 3.551
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH2 -0.226 2.851
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 164 OG1 -0.227 2.327
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 O -0.228 2.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 HH12 -0.228 2.853
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 NH2 -0.229 2.934
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 CZ -0.232 3.557
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 176 NH2 -0.232 3.557
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B VAL 172 O -0.235 2.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 380 CD -0.235 3.415
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH2 -0.236 3.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 221 NH1 -0.236 3.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 CA -0.236 3.416
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 221 NH1 -0.238 2.943
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A VAL 172 CG1 -0.239 3.639
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CG2 -0.240 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH22 -0.240 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 HG21 -0.240 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 C -0.240 3.420
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 HH12 -0.242 2.942
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 NH1 -0.243 2.948
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 192 CD1 -0.244 2.944
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 NH2 -0.245 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 CA -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 CG2 -0.245 2.945
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 176 NH2 -0.246 2.871
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 HG23 -0.247 2.947
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 CG2 -0.248 2.948
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 NH1 -0.248 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 CG2 -0.249 3.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 174 HB3 -0.250 2.875
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 HG21 -0.251 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 176 HH22 -0.252 2.252
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 210 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 HH -0.252 2.332
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 C -0.253 3.433
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B THR 164 OG1 -0.254 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 166 HD11 -0.254 2.954
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 CZ -0.254 3.579
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 O -0.256 2.736
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 191 O -0.256 3.216
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A VAL 172 O -0.256 2.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH1 -0.257 3.507
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ARG 176 HH22 -0.258 2.958
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B VAL 172 O -0.259 2.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 176 HH22 -0.261 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH2 -0.261 3.586
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 192 CD1 -0.262 3.662
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 N -0.262 2.967
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 176 HH22 -0.262 2.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 -0.263 2.888
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 192 CD1 -0.263 3.663
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH2 -0.264 3.589
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 CG2 -0.264 3.589
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 HG21 -0.265 2.965
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 HG21 -0.266 2.966
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 174 OD2 -0.268 2.348
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 176 NH2 -0.269 3.594
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 NH2 -0.269 3.594
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 CG2 -0.269 2.969
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 CZ -0.269 3.594
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 174 CB -0.270 3.595
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH2 -0.270 3.595
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 174 HB3 -0.270 2.270
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A VAL 177 HG21 -0.271 2.896
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 210 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH12 -0.272 2.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 CB -0.272 2.972
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASP 174 HB3 -0.272 2.272
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 HH22 -0.273 2.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A VAL 172 CG1 -0.273 3.673
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 OD2 -0.273 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 CA -0.274 3.454
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A VAL 172 O -0.274 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B VAL 172 O -0.274 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE2 -0.275 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 229 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B VAL 172 CG1 -0.275 2.975
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 CB -0.275 2.975
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B VAL 172 HG11 -0.276 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 176 NH2 -0.276 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LEU 215 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 194 HG3 -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 HH12 -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 164 OG1 -0.280 2.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ILE 192 CD1 -0.280 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 HG23 -0.281 2.981
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A VAL 172 O -0.282 2.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 CZ -0.282 3.462
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 C -0.283 3.463
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B VAL 172 O -0.283 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 HH22 -0.283 2.283
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASP 174 CB -0.284 2.984
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 CG2 -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 O -0.286 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 174 CB -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 221 HH22 -0.286 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 HG21 -0.287 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 HH12 -0.287 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 228 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 176 HH22 -0.289 2.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASP 174 HB3 -0.289 2.914
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A VAL 172 CG1 -0.291 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 C -0.291 3.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 192 CA -0.291 3.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 O -0.292 2.772
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 CZ -0.292 3.472
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE2 -0.293 2.373
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A VAL 177 HG21 -0.293 2.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 192 O -0.293 2.998
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 CG2 -0.293 2.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 176 NH2 -0.294 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH12 -0.294 2.994
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH2 -0.294 3.619
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLY 218 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 CG2 -0.295 3.620
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LYS 225 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 174 CB -0.297 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 176 HH22 -0.298 2.298
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 -0.298 2.923
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 174 OD2 -0.299 2.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 NH1 -0.299 2.924
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 HH22 -0.300 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CG2 -0.301 3.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 HH22 -0.302 3.002
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 N -0.303 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ARG 176 NH2 -0.303 3.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A VAL 172 O -0.304 2.384
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 192 CG2 -0.305 3.005
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 194 HB3 -0.305 3.005
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 N -0.305 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 -0.306 3.011
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 HH22 -0.306 2.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 221 HH12 -0.306 2.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE2 -0.307 3.012
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 CG2 -0.307 3.632
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 176 HH22 -0.307 2.307
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B VAL 172 HG11 -0.308 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH22 -0.308 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 CZ -0.310 3.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 CZ -0.310 3.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 HA -0.310 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 H -0.310 2.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 174 HB3 -0.311 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 HG21 -0.311 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLU 194 CD -0.313 3.638
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B SER 193 H -0.314 2.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E SER 222 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 176 HH22 -0.314 2.314
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 OG1 -0.314 2.414
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B GLU 194 HB3 -0.314 3.014
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH22 -0.315 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 OD2 -0.315 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 OD2 -0.315 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 CZ -0.316 3.641
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 194 OE1 -0.317 3.277
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 CG2 -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 CZ -0.318 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 HG23 -0.318 2.318
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 HG23 -0.319 2.319
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B VAL 172 CG1 -0.320 3.720
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 HH21 -0.320 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 -0.321 3.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 C -0.321 3.501
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 174 CG -0.322 3.647
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 172 HG11 -0.322 2.322
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 OD2 -0.322 2.402
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CG2 -0.322 3.722
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 194 CD -0.322 3.647
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 229 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A VAL 172 CG1 -0.322 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLY 218 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 176 HH22 -0.322 2.402
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 172 CG1 -0.323 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 CG2 -0.323 3.648
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ARG 176 HH22 -0.324 2.404
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 C -0.325 3.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 NH2 -0.326 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A THR 164 HG21 -0.326 2.326
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LEU 217 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 HG12 -0.326 2.326
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 210 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH21 -0.327 3.027
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 192 CD1 -0.327 3.727
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 C -0.328 3.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 HG23 -0.329 3.029
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 HG21 -0.329 2.954
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A VAL 177 CG2 -0.331 3.031
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH2 -0.332 3.657
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 174 CB -0.332 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 CG -0.333 3.658
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 NH1 -0.333 3.658
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A VAL 172 CG1 -0.333 3.733
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 -0.333 2.958
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 HG23 -0.334 2.334
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE2 -0.334 2.414
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E THR 233 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 192 HD13 -0.334 2.334
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 176 HH22 -0.335 2.335
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 HG23 -0.336 3.036
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 221 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B VAL 172 HG11 -0.336 2.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 166 HD11 -0.336 3.036
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E THR 233 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 HD13 -0.336 2.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 CG2 -0.336 3.036
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 C -0.338 3.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 210 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH2 -0.339 3.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 HG21 -0.339 3.039
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LEU 217 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 HG12 -0.340 2.340
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 OG1 -0.340 2.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 176 NH2 -0.340 3.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E VAL 221 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 176 NH2 -0.340 3.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B VAL 172 HG11 -0.341 3.041
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E VAL 221 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B VAL 172 HG11 -0.341 2.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 HG23 -0.341 2.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A SER 193 H -0.342 2.422
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 192 HG21 -0.342 3.042
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 CZ -0.342 3.742
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 193 N -0.343 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 221 HH12 -0.344 2.424
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 HH22 -0.344 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 229 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B VAL 172 HG11 -0.345 2.345
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 192 CD1 -0.346 3.746
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LYS 225 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B VAL 172 HB -0.347 2.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B SER 193 H -0.348 2.428
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 HH22 -0.348 2.428
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 229 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A VAL 172 HG11 -0.349 2.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 192 O -0.349 3.529
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 221 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B THR 164 HG21 -0.350 2.350
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 NE -0.351 3.601
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 HG23 -0.351 2.351
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 174 OD2 -0.352 2.432
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 166 HD11 -0.352 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 166 HD11 -0.352 2.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 174 OD2 -0.352 2.432
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 HH22 -0.352 2.432
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 192 HG21 -0.353 2.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CD1 -0.355 3.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 221 HH12 -0.355 2.435
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B SER 193 H -0.357 2.437
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B VAL 172 CG1 -0.357 3.757
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 CZ -0.358 3.758
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 192 HD13 -0.358 2.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 174 CG -0.358 3.683
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B GLU 194 HB3 -0.359 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 174 HB3 -0.359 2.984
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 176 HH22 -0.360 2.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 176 NH2 -0.361 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 N -0.361 3.066
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E VAL 221 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B VAL 172 HG11 -0.362 2.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 192 O -0.362 3.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 164 HG21 -0.363 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A VAL 172 HB -0.363 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A THR 164 HG21 -0.363 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 CG -0.364 3.064
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 HH22 -0.365 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 232 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 194 OE1 -0.366 3.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 221 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A THR 164 HG21 -0.366 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 HH12 -0.366 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 NH2 -0.367 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 CG2 -0.368 3.068
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 HH22 -0.369 2.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E LYS 225 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A VAL 172 HB -0.369 2.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 217 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 HG12 -0.371 2.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 232 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLU 194 OE1 -0.371 2.451
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 194 OE1 -0.372 2.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 HG23 -0.373 3.073
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 192 C -0.373 3.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 192 HG23 -0.374 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 164 OG1 -0.374 2.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 176 HH21 -0.375 3.075
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B VAL 172 CG1 -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E ARG 232 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 176 NH1 -0.376 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLY 218 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 CG2 -0.377 3.702
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 176 HH21 -0.377 3.077
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 HH22 -0.378 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A SER 193 C -0.378 3.558
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A VAL 172 HG11 -0.380 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 NH1 -0.380 3.085
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 HH12 -0.380 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 HG21 -0.380 2.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B VAL 172 CG1 -0.380 3.780
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 192 HG21 -0.380 2.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 HH22 -0.382 3.082
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 221 NH2 -0.382 3.087
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 232 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B THR 164 OG1 -0.383 2.483
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E ARG 232 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 164 HB -0.383 2.383
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 194 CB -0.385 3.785
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E VAL 221 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 176 HH22 -0.386 2.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 221 HH22 -0.387 3.087
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 172 CG1 -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E VAL 229 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B VAL 172 CG1 -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 221 NH1 -0.388 3.713
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 194 CB -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E LEU 217 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ILE 192 CG2 -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E LEU 217 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 192 HG12 -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 174 CG -0.390 3.715
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 211 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 221 HH22 -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 221 NH1 -0.391 3.716
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLU 211 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 221 HH22 -0.392 2.472
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 221 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 176 NH2 -0.392 3.717
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 229 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A VAL 172 CG1 -0.392 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E VAL 229 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 192 CD1 -0.392 3.792
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ASP 228 OD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ARG 176 HH22 -0.393 2.473
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLY 218 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 192 CG2 -0.395 3.720
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A SER 193 H -0.395 2.475
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E LEU 217 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 192 HG23 -0.395 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 193 C -0.395 3.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 229 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ILE 192 HD13 -0.395 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLU 211 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 221 NH1 -0.396 3.721
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E VAL 221 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B THR 164 HG21 -0.396 2.396
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 CZ -0.397 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E THR 233 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 192 CD1 -0.398 3.098
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E LEU 217 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 192 HG12 -0.398 3.098
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LYS 225 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 174 CG -0.398 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ASP 228 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 176 NH2 -0.399 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 221 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A VAL 172 HG11 -0.400 2.400
578 contacts
> select clear
Drag select of 121 residues, 24 atoms
> select #1/E:211
15 atoms, 14 bonds, 1 residue, 1 model selected
> select #1/E:211-232 #2/E:211-232 #3/E:211-232 #4/E:211-232 #5/E:211-232
> #7/E:211-232 #8/E:211-232 #9/E:211-232 #10/E:211-232 #11/E:211-232
3650 atoms, 3680 bonds, 220 residues, 10 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [211-232] RMSD: 16.057
> select /F
10 atoms, 10 residues, 10 models selected
> select /F,G,H,I
40 atoms, 7 bonds, 40 residues, 10 models selected
> show sel atoms
> style sel sphere
Changed 40 atom styles
> color sel lime
> select clear
> select /J
19270 atoms, 20860 bonds, 600 residues, 10 models selected
> sequence align /J
Must specify 2 or more protein sequences
> show sel cartoons
> select /K
9448 atoms, 10148 bonds, 300 residues, 10 models selected
> show sel cartoons
[Repeated 1 time(s)]
> select /L
9540 atoms, 10220 bonds, 300 residues, 10 models selected
> show sel cartoons
> select /M
Nothing selected
> select /A:300-385
14340 atoms, 14440 bonds, 860 residues, 10 models selected
> show sel atoms
> hide sel atoms
> select clear
> select /C:300-385
14047 atoms, 14177 bonds, 860 residues, 10 models selected
> show sel atoms
> hide sel atoms
> show sel cartoons
> select /B:220-290
11380 atoms, 11550 bonds, 9 pseudobonds, 710 residues, 11 models selected
> show sel cartoons
> undo
> select /A:300-385
14340 atoms, 14440 bonds, 860 residues, 10 models selected
> show sel cartoons
> select /C:220-290
9867 atoms, 10067 bonds, 710 residues, 10 models selected
> select /D:220-290
9600 atoms, 9720 bonds, 610 residues, 10 models selected
> show sel cartoons
> transparency sel 0 ribbons
> select /E:1-30
4770 atoms, 4810 bonds, 300 residues, 10 models selected
> show sel cartoons
> hide sel cartoons
> select /D:220-290
9600 atoms, 9720 bonds, 610 residues, 10 models selected
> hide sel cartoons
> select /C:300-385
14047 atoms, 14177 bonds, 860 residues, 10 models selected
> hide sel cartoons
> select clear
Drag select of 126 residues
> select #11/E:211
15 atoms, 14 bonds, 1 residue, 1 model selected
> select #11/E:211-225
253 atoms, 255 bonds, 15 residues, 1 model selected
> show sel cartoons
> select #1/E:210
15 atoms, 14 bonds, 1 residue, 1 model selected
> select #1/E:210-213 #2/E:210-213 #3/E:210-213 #4/E:210-213 #5/E:210-213
305 atoms, 305 bonds, 20 residues, 5 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [210-213] RMSD: 1.071
> select #7/E:210
15 atoms, 14 bonds, 1 residue, 1 model selected
> select #7/E:210-214 #8/E:210-214 #9/E:210-214 #10/E:210-214 #11/E:210-214
390 atoms, 390 bonds, 25 residues, 5 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [210-214] RMSD: 1.362
> select #1/E:215
19 atoms, 18 bonds, 1 residue, 1 model selected
> select #1/E:215-218 #2/E:215-218 #3/E:215-218 #4/E:215-218 #5/E:215-218
310 atoms, 305 bonds, 20 residues, 5 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [215-218] RMSD: 0.995
> select #7/E:209
14 atoms, 13 bonds, 1 residue, 1 model selected
> select #7/E:209-214 #8/E:209-214 #9/E:209-214 #10/E:209-214 #11/E:209-214
460 atoms, 460 bonds, 30 residues, 5 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [209-214] RMSD: 1.412
> select #1/E:209
14 atoms, 13 bonds, 1 residue, 1 model selected
> select #1/E:209 #2/E:209 #3/E:209 #4/E:209 #5/E:209 #7/E:209 #8/E:209
> #9/E:209 #10/E:209 #11/E:209
140 atoms, 130 bonds, 10 residues, 10 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [209] RMSD: 35.041
> select #1/E:221
16 atoms, 15 bonds, 1 residue, 1 model selected
> select #1/E:221 #2/E:221 #3/E:221 #4/E:221 #5/E:221 #7/E:221 #8/E:221
> #9/E:221 #10/E:221 #11/E:221
160 atoms, 150 bonds, 10 residues, 10 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [221] RMSD: 6.560
> select #1/E:220
19 atoms, 18 bonds, 1 residue, 1 model selected
> select #1/E:220 #2/E:220 #3/E:220 #4/E:220 #5/E:220 #7/E:220 #8/E:220
> #9/E:220 #10/E:220 #11/E:220
190 atoms, 180 bonds, 10 residues, 10 models selected
> select #1/E:216-220 #2/E:216-220 #3/E:216-220 #4/E:216-220 #5/E:216-220
> #7/E:216-220 #8/E:216-220 #9/E:216-220 #10/E:216-220 #11/E:216-220
820 atoms, 820 bonds, 50 residues, 10 models selected
Clustal Omega Alignment [ID: 3] region chain E..chain E [216-220] RMSD: 14.502
> select /E
56693 atoms, 57173 bonds, 3450 residues, 10 models selected
> hide sel cartoons
> hide sel atoms
> select clear
> select #1/C:122
12 atoms, 11 bonds, 1 residue, 1 model selected
> select #1/C:122-132 #2/C:122-132 #3/C:122-132 #4/C:122-132 #5/C:122-132
> #7/C:122-132 #8/C:122-132 #9/C:122-132 #10/C:122-132 #11/C:122-132
1970 atoms, 1990 bonds, 110 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [122-132] RMSD: 0.720
> select #1/C:158
10 atoms, 9 bonds, 1 residue, 1 model selected
> select #1/C:141-158 #2/C:141-158 #3/C:141-158 #4/C:141-158 #5/C:141-158
> #7/C:141-158 #8/C:141-158 #9/C:141-158 #10/C:141-158 #11/C:141-158
2520 atoms, 2530 bonds, 180 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [141-158] RMSD: 35.580
> hide sel cartoons
> select clear
> select /D
44074 atoms, 44514 bonds, 2800 residues, 10 models selected
> hide sel cartoons
> select clear
Drag select of 21 residues
Drag select of 10 residues
> sequence chain #1/A#2/A#3/A#4/A#5/A#7/A#8/A#9/A#10/A#11/A
Alignment identifier is 2
> select up
4659 atoms, 4692 bonds, 298 residues, 10 models selected
> select down
536 atoms, 31 residues, 10 models selected
> select #1/A:363 #2/A:363 #3/A:363 #4/A:363 #5/A:363 #7/A:363 #8/A:363
> #9/A:363 #10/A:363 #11/A:363
190 atoms, 180 bonds, 10 residues, 10 models selected
> select #1/A:363-425 #2/A:363-425 #3/A:363-425 #4/A:363-425 #5/A:363-425
> #7/A:363-425 #8/A:363-425 #9/A:363-425 #10/A:363-425 #11/A:363-425
9680 atoms, 9740 bonds, 630 residues, 10 models selected
2 [ID: 2] region 10 chains [363-425] RMSD: 62.618
> hide sel cartoons
> undo
> select clear
> select /A
68423 atoms, 69073 bonds, 53 pseudobonds, 4250 residues, 11 models selected
> rainbow sel
Drag select of 21 residues
> select #1/A:370 #2/A:370 #3/A:370 #4/A:370 #5/A:370 #7/A:370 #8/A:370
> #9/A:370 #10/A:370 #11/A:370
110 atoms, 100 bonds, 10 residues, 10 models selected
> select #1/A:370-425 #2/A:370-425 #3/A:370-425 #4/A:370-425 #5/A:370-425
> #7/A:370-425 #8/A:370-425 #9/A:370-425 #10/A:370-425 #11/A:370-425
8490 atoms, 8540 bonds, 560 residues, 10 models selected
2 [ID: 2] region 10 chains [370-425] RMSD: 66.415
Drag select of 10 residues
> select #1/A:376 #2/A:376 #3/A:376 #4/A:376 #5/A:376 #7/A:376 #8/A:376
> #9/A:376 #10/A:376 #11/A:376
140 atoms, 140 bonds, 10 residues, 10 models selected
> select #1/A:376-425 #2/A:376-425 #3/A:376-425 #4/A:376-425 #5/A:376-425
> #7/A:376-425 #8/A:376-425 #9/A:376-425 #10/A:376-425 #11/A:376-425
7480 atoms, 7530 bonds, 500 residues, 10 models selected
2 [ID: 2] region 10 chains [376-425] RMSD: 70.194
> hide sel cartoons
> select clear
> select /A
68423 atoms, 69073 bonds, 53 pseudobonds, 4250 residues, 11 models selected
> color sel bychain
> select clear
Drag select of 32 atoms, 6183 residues, 21 pseudobonds
> sequence chain
> #1/A,B#2/A,B#3/A,B#4/A,B#5/A,B#7/A,B#8/A,B#9/A,B#10/A,B#11/A,B
Alignment identifier is 3
> sequence chain #1/C#2/C#3/C#4/C#5/C#7/C#8/C#9/C#10/C#11/C
Alignment identifier is 4
> sequence chain #1/J#2/J#3/J#4/J#5/J#7/J#8/J#9/J#10/J#11/J
Alignment identifier is 5
> sequence chain #1/K#2/K#3/K#4/K#5/K#7/K#8/K#9/K#10/K#11/K
Alignment identifier is 6
> sequence chain #1/L#2/L#3/L#4/L#5/L#7/L#8/L#9/L#10/L#11/L
Alignment identifier is 7
> select up
146001 atoms, 149898 bonds, 21 pseudobonds, 7902 residues, 21 models selected
> select down
111295 atoms, 21 pseudobonds, 6215 residues, 21 models selected
> select #1/C:111
22 atoms, 21 bonds, 1 residue, 1 model selected
> select #1/C:111-121 #2/C:111-121 #3/C:111-121 #4/C:111-121 #5/C:111-121
> #7/C:111-121 #8/C:111-121 #9/C:111-121 #10/C:111-121 #11/C:111-121
1720 atoms, 1720 bonds, 110 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [111-121] RMSD: 4.794
Drag select of 24 residues
> select up
1469 atoms, 1483 bonds, 86 residues, 10 models selected
> select #1/C:4
15 atoms, 14 bonds, 1 residue, 1 model selected
> select #1/C:1-4 #2/C:1-4 #3/C:1-4 #4/C:1-4 #5/C:1-4 #7/C:1-4 #8/C:1-4
> #9/C:1-4 #10/C:1-4 #11/C:1-4
680 atoms, 690 bonds, 40 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [1-4] RMSD: 7.315
> hide sel cartoons
> select clear
Drag select of 2773 residues
> select intersect /A
17566 atoms, 1082 residues, 10 models selected
> select #1/C:8-9
36 atoms, 35 bonds, 2 residues, 1 model selected
> select #1/C:8-133 #2/C:8-133 #3/C:8-133 #4/C:8-133 #5/C:8-133 #7/C:8-133
> #8/C:8-133 #9/C:8-133 #10/C:8-133 #11/C:8-133
20826 atoms, 21006 bonds, 1260 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [8-133] RMSD: 1.788
> contacts sel interModel false intraMol false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
2522 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 26 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 OE1 0.277 2.683
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 0.265 2.985
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD2 0.247 2.933
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 NH1 0.244 3.006
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A THR 23 O 0.241 2.719
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLN 17 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD2 0.234 2.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CG 0.233 2.967
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 NH2 0.229 3.021
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CB 0.229 2.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NH2 0.224 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 CB 0.224 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 48 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A VAL 17 CG1 0.216 2.964
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 OG 0.212 2.988
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O 0.209 2.751
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CB 0.209 2.991
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 73 O 0.207 2.273
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 OE1 0.204 2.756
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 CB 0.203 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CE1 0.196 3.004
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 73 O 0.194 2.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 CB 0.194 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 CZ 0.192 3.133
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 CB 0.190 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 CZ 0.190 3.135
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 73 O 0.189 2.291
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 CD 0.189 3.136
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 HD2 0.187 2.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 38 O 0.184 2.996
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 CD 0.184 3.141
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 HD2 0.183 2.297
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD 0.182 3.143
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 CB 0.180 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 73 O 0.180 2.300
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CB 0.179 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 73 O 0.177 2.303
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 73 O 0.175 2.305
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CB 0.174 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 NH1 0.173 3.077
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CG 0.173 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 CZ 0.172 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CB 0.172 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 38 O 0.171 3.009
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 73 O 0.169 2.311
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CB 0.168 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 O 0.167 3.013
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 NE2 0.166 3.084
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 NE2 0.165 3.160
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 CE1 0.164 3.036
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 73 O 0.164 2.316
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 ND1 0.163 2.477
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 39 O 0.163 2.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH2 0.160 2.465
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 CB 0.159 3.041
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 24 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 252 OD1 0.158 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 OD2 0.157 3.023
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 0.157 3.243
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CG 0.157 3.023
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 O 0.157 2.323
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH2 0.157 2.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 NE2 0.155 3.170
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 0.154 2.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 39 O 0.154 2.326
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 ND1 0.151 2.489
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH2 0.151 3.099
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CB 0.151 3.049
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 0.151 2.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 CD 0.149 3.176
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 38 O 0.148 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 CZ 0.148 3.177
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 CB 0.146 3.034
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 86 O 0.141 2.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CE1 0.140 3.040
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 73 O 0.139 2.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 39 O 0.137 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 CB 0.137 3.188
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CG 0.136 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 36 CG2 0.135 3.190
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 O 0.133 2.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH2 0.132 3.193
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 O 0.129 2.351
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CA 0.127 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 NH1 0.125 2.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 OE1 0.122 3.058
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH2 0.122 2.503
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 NE2 0.121 3.204
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 86 O 0.120 2.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 CG2 0.120 3.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 0.117 3.063
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH2 0.116 2.509
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CG 0.115 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 77 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 39 OE1 0.115 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CG 0.115 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 NE2 0.115 3.210
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 ND1 0.114 3.211
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 O 0.114 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 0.113 2.512
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 HD2 0.112 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 0.112 2.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 ND1 0.111 3.229
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 O 0.110 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 CD1 0.108 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 60 NH1 0.108 2.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 HD1 0.106 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 O 0.106 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 86 O 0.106 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 SD 0.105 3.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH2 0.105 2.520
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 O 0.105 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 54 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 119 O 0.105 3.075
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C HIS 113 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 OD2 0.105 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 ND1 0.104 3.221
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CE 0.102 3.223
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 O 0.101 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 0.100 2.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CD1 0.100 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CG1 0.100 3.300
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 88 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 32 OD1 0.099 3.081
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 HE1 0.099 2.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 NE2 0.098 3.227
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE1 0.098 3.302
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 OD2 0.097 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 HD2 0.095 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CZ 0.095 3.105
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 0.095 3.085
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLN 46 NE2 0.094 3.231
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 NE2 0.089 3.236
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 O 0.088 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CB 0.087 3.093
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 104 OD2 0.084 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH2 0.084 3.166
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 38 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 118 CB 0.083 3.097
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 73 O 0.083 2.397
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 0.082 3.098
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 NH1 0.080 3.170
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 O 0.079 3.101
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 86 O 0.077 3.103
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ILE 258 CD1 0.076 3.324
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 O 0.076 3.104
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 O 0.074 3.106
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HD2 0.074 2.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 ND1 0.073 3.267
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A VAL 40 O 0.070 2.890
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 O 0.068 2.412
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CZ 0.068 2.632
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 38 O 0.067 2.413
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 HE2 0.067 2.633
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 O 0.067 3.113
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 73 O 0.067 3.113
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CG1 0.065 3.260
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 HD2 0.064 2.416
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A THR 85 O 0.064 2.416
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 HD2 0.063 2.417
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 CB 0.062 3.338
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CD 0.062 3.263
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 NE2 0.061 3.264
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE2 0.061 3.119
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 HD2 0.060 2.420
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 HH21 0.058 2.567
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE2 0.057 3.343
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 73 O 0.057 3.123
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 86 O 0.057 2.423
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 O 0.055 3.125
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C HIS 113 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B TYR 407 HH 0.053 2.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 CG 0.053 3.287
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 NE2 0.052 3.273
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 13 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ASP 32 OD1 0.052 3.128
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 NH1 0.050 2.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 OE1 0.050 3.130
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HA 0.050 2.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 CB 0.049 2.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 NH1 0.049 2.576
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 38 O 0.049 2.431
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 CE 0.048 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 73 O 0.048 3.132
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 CD2 0.047 3.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 97 HD1 0.047 1.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 107 CD 0.046 2.654
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE 0.046 3.134
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 86 O 0.046 3.134
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 O 0.046 2.434
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 0.045 3.135
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 73 O 0.045 3.135
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CD 0.045 3.155
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CZ 0.045 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CD 0.045 3.155
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NE 0.044 3.206
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 O 0.044 3.136
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CG 0.043 3.157
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE2 0.042 3.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 39 O 0.042 3.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ASP 38 O 0.042 3.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB 0.042 3.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE1 0.040 3.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 73 O 0.039 3.141
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 38 O 0.039 3.141
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE1 0.039 3.141
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 31 OD1 0.038 2.442
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 0.038 3.142
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 C 0.038 2.662
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 0.038 3.142
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 0.038 3.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LEU 92 CD2 0.036 3.364
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 NE 0.036 3.214
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 73 O 0.036 3.144
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 85 C 0.034 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD 0.034 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CD2 0.033 3.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 92 CD2 0.032 3.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NH2 0.032 3.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 CD 0.030 3.170
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 C 0.030 2.670
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 114 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 302 OD2 0.030 2.450
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 92 CD2 0.029 3.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 HD2 0.029 2.451
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 104 OD2 0.029 2.451
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 114 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 302 CG 0.029 3.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 64 OE2 0.029 3.151
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 23 O 0.028 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CB 0.027 3.173
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 C 0.027 2.673
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLY 20 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 272 OE1 0.026 2.934
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 CB 0.026 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 73 O 0.025 3.155
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LEU 92 CD2 0.025 3.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 CD 0.024 3.176
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CD 0.024 3.176
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 211 HA 0.023 2.602
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 83 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NH2 0.023 2.602
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE1 0.023 3.157
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CD2 0.022 3.178
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 24 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 NH1 0.022 2.603
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 96 CB 0.022 2.678
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ 0.022 3.178
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 38 O 0.022 2.458
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CZ 0.022 3.378
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 CD2 0.022 3.158
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 73 O 0.021 3.159
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 CZ 0.021 3.304
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 HB2 0.021 2.459
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CZ 0.021 3.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 0.020 2.605
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 14 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 CD 0.020 2.680
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE1 0.019 3.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 CZ 0.019 3.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 CD 0.019 3.181
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HD1 0.018 2.462
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 C 0.017 2.683
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 CD 0.017 3.183
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 0.017 3.308
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 86 O 0.017 3.163
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A THR 85 C 0.017 2.683
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 NE2 0.016 3.309
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NH2 0.016 3.309
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 HD2 0.015 2.485
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 96 CD1 0.015 3.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 92 CD2 0.014 3.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 C 0.014 2.686
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HB3 0.013 2.487
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 60 NH1 0.013 3.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CG 0.012 3.388
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH2 0.012 3.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 86 O 0.012 3.168
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E PHE 40 HE2 0.012 2.613
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD 0.011 2.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 CE 0.011 3.389
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 O 0.010 3.170
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 HB2 0.009 2.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 NE 0.008 3.242
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 CD 0.007 2.693
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 50 HA 0.007 2.493
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 HG 0.007 2.618
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 211 HA 0.006 2.619
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CZ 0.004 3.396
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 NH2 0.004 3.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 0.004 3.176
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 CD 0.003 3.197
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 O 0.003 2.477
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 HD2 0.003 2.497
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 N 0.002 2.623
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 O 0.002 2.478
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 16 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 252 CG 0.002 2.698
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 CD 0.001 2.699
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 92 CD2 0.001 3.399
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 46 NE2 0.001 3.324
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE2 0.000 2.700
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 54 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 CG2 0.000 2.700
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CD2 0.000 3.180
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 265 O -0.001 3.181
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 CD -0.001 3.201
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 HD2 -0.003 2.503
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 73 O -0.003 3.183
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 85 C -0.003 2.703
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 36 HG22 -0.004 2.629
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 HD2 -0.004 2.504
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 114 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 302 OD2 -0.005 3.185
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 CZ -0.005 3.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.005 3.405
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 21 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 CG -0.005 3.185
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 HD2 -0.006 2.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 CD1 -0.006 3.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 NE -0.008 2.633
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 41 HD12 -0.009 2.489
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 CD -0.009 3.209
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 CE2 -0.009 3.409
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CB -0.010 3.190
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C HIS 113 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 211 OD1 -0.011 2.491
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE2 -0.012 3.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 HD2 -0.012 2.512
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C HIS 113 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B TYR 407 HH -0.013 2.013
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 HD2 -0.013 2.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 211 OD1 -0.013 2.493
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 260 CG -0.013 2.713
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 53 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HH21 -0.015 2.715
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 HH11 -0.015 2.640
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A VAL 40 HG13 -0.016 2.496
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 76 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D MET 121 HE1 -0.016 2.496
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE1 -0.020 3.420
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD2 -0.020 2.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 OH -0.021 2.521
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH2 -0.021 2.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 80 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 262 O -0.021 2.501
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.022 2.647
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE2 -0.022 3.202
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 O -0.022 3.202
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE2 -0.023 3.423
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 HD2 -0.023 2.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CD1 -0.024 3.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 114 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASP 302 OD2 -0.024 3.204
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH11 -0.024 2.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 56 CB -0.024 3.204
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 CA -0.024 3.204
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CD2 -0.025 3.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 CZ -0.025 3.225
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CB -0.026 3.206
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NH2 -0.026 2.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HG2 -0.026 2.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 92 CD2 -0.026 3.426
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE2 -0.026 3.206
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 103 OH -0.026 2.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CG -0.026 2.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ASP 38 O -0.027 2.507
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 42 HD3 -0.027 2.507
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.027 2.507
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 HB1 -0.028 2.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 HD12 -0.028 2.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 O -0.028 2.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 24 HA -0.028 2.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 -0.028 3.278
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LEU 96 CD1 -0.029 3.429
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 HD2 -0.029 2.529
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 NE2 -0.029 2.654
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 -0.030 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.030 2.510
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 38 O -0.030 3.210
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH2 -0.030 2.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 HH21 -0.032 2.732
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HD11 -0.033 2.658
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 OE1 -0.033 2.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HB3 -0.033 2.658
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 HZ -0.033 2.033
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 CB -0.034 3.214
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CD1 -0.034 2.734
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE1 -0.034 3.434
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CE1 -0.035 3.235
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 CD -0.035 3.215
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B MET 353 HB3 -0.035 2.660
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH2 -0.035 3.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 HD12 -0.035 2.515
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE2 -0.036 3.216
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 HB3 -0.036 2.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 HE21 -0.036 2.661
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CB -0.036 3.216
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 77 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 39 OE1 -0.036 2.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 212 HG3 -0.036 2.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.036 2.661
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 41 HD12 -0.036 2.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 HB3 -0.037 2.537
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.037 2.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 O -0.037 2.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE1 -0.037 3.217
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 21 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 HG3 -0.038 2.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CG1 -0.038 3.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 O -0.038 3.218
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 41 HD12 -0.039 2.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE1 -0.039 3.219
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B MET 353 CE -0.039 3.364
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 13 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ASP 32 OD1 -0.039 2.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 CD -0.039 2.739
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 CD -0.040 3.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 73 O -0.040 3.220
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CZ -0.040 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 -0.041 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 77 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 OE1 -0.041 2.521
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 HB3 -0.042 2.522
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 HA -0.042 2.522
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 CD -0.042 2.742
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 CG2 -0.042 2.742
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.042 2.667
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CB -0.042 3.222
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 34 HB -0.043 2.668
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.043 3.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH2 -0.043 3.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.044 3.294
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 HG23 -0.045 2.670
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 OH -0.045 2.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 24 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 31 CG -0.046 2.746
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 41 HD12 -0.046 2.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 HB3 -0.046 2.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 ND1 -0.046 2.671
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 104 OD2 -0.047 3.227
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 HD12 -0.047 2.527
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CZ -0.048 2.748
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 HB3 -0.048 2.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 16 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD1 -0.048 2.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 NH2 -0.049 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 HB3 -0.050 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 CD -0.050 2.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 HB3 -0.050 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 ND1 -0.050 2.690
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 21 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 CD -0.050 3.230
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 NH1 -0.050 2.675
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B MET 353 HE3 -0.051 2.676
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NH2 -0.051 2.676
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 92 CD2 -0.052 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PRO 42 HD3 -0.052 2.532
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 20 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PRO 120 HA -0.052 2.532
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLY 249 HA2 -0.052 2.677
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 CZ -0.052 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 50 HA -0.052 2.552
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 O -0.053 3.233
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ILE 258 HG22 -0.053 2.678
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 23 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 NH1 -0.054 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLY 22 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 425 O -0.054 2.534
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 CE1 -0.054 2.754
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.054 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HB3 -0.055 2.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 O -0.055 2.535
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 HB3 -0.055 2.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 -0.055 2.680
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 OE2 -0.055 3.235
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 CD2 -0.056 3.236
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D VAL 253 HG23 -0.056 2.681
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HB3 -0.056 2.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 HD2 -0.056 2.756
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 41 HD12 -0.056 2.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 HB3 -0.056 2.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 HD3 -0.056 2.681
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HB3 -0.057 2.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE2 -0.057 2.537
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 O -0.057 2.537
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 ND1 -0.058 2.798
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 CZ -0.059 3.259
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 84 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ASP 409 CG -0.060 2.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 CB -0.060 3.240
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HZ -0.060 2.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CB -0.060 2.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LEU 18 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD2 -0.061 2.761
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.061 3.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 CB -0.061 3.241
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 HB3 -0.061 2.541
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NH2 -0.061 3.311
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 ND1 -0.061 3.401
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LYS 50 HA -0.062 2.562
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH2 -0.062 3.387
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 83 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NH2 -0.062 3.387
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CD -0.062 3.462
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CD2 -0.063 3.243
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD2 -0.064 2.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 O -0.064 2.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HE1 -0.064 2.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 CE2 -0.064 3.464
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 HA -0.065 2.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NH2 -0.065 3.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 252 CG -0.065 3.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 76 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 CG -0.065 2.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 CZ -0.065 2.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE2 -0.065 2.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 HE2 -0.065 2.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 61 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 O -0.066 2.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.066 2.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLN 270 NE2 -0.067 2.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HG13 -0.067 2.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 NE2 -0.067 2.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 75 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CE1 -0.067 3.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 CE2 -0.067 3.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 HB2 -0.068 2.693
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 103 OH -0.068 2.568
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 260 CG -0.068 3.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CB -0.068 3.248
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 CD2 -0.068 3.248
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C HIS 113 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 OD2 -0.068 3.248
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLY 20 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 272 CD -0.068 3.248
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NH2 -0.068 2.693
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 HB2 -0.069 2.549
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE2 -0.069 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 61 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 O -0.069 2.549
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CE2 -0.069 2.769
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 -0.070 3.250
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE2 -0.070 3.250
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A THR 85 C -0.070 2.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 110 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 59 NZ -0.070 3.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 ND1 -0.070 2.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH2 -0.070 2.695
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 NE2 -0.071 3.411
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 OE2 -0.071 2.551
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 38 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 118 HB3 -0.072 2.552
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLN 46 NE2 -0.072 3.397
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 50 HA -0.072 2.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 81 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 90 HD11 -0.072 2.552
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASN 259 H -0.073 2.698
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 OE1 -0.073 3.253
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 36 HD22 -0.073 2.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 -0.073 2.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 ND1 -0.073 2.698
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 CG -0.073 3.473
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD -0.073 3.398
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 CZ -0.074 2.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 -0.074 3.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CD -0.074 3.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 NE2 -0.075 3.400
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLY 22 HA2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 O -0.075 2.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CD2 -0.076 3.256
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HB3 -0.076 2.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.076 3.401
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 83 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HH21 -0.076 2.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 HG2 -0.077 2.702
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 HE2 -0.077 2.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB3 -0.077 2.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 HB3 -0.077 2.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CB -0.077 2.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 CD2 -0.077 3.257
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CE2 -0.077 3.477
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 CB -0.077 2.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HE3 -0.078 2.703
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 CD -0.078 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 CZ -0.078 2.778
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 NH1 -0.078 3.403
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HD2 -0.079 2.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 OH -0.080 2.580
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ -0.080 2.780
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 CD1 -0.080 3.260
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 C -0.080 2.780
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 84 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 HD13 -0.080 2.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG12 -0.081 2.781
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH2 -0.081 2.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 19 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 419 SD -0.081 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 424 HB3 -0.081 2.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB2 -0.083 2.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 HD3 -0.083 2.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 HB3 -0.083 2.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 HD2 -0.083 2.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 84 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 CD1 -0.083 3.408
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 OG -0.084 2.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CD1 -0.084 3.409
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 CA -0.084 3.264
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 HE1 -0.085 2.785
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE1 -0.085 2.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 CD1 -0.085 3.485
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 -0.085 2.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 48 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A VAL 17 HG12 -0.086 2.566
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 OE1 -0.086 2.566
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 -0.086 2.711
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LEU 114 HD23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASP 302 OD2 -0.087 2.567
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 -0.087 3.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CB -0.087 3.267
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 CB -0.088 3.268
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CG -0.088 3.288
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 HD2 -0.088 2.588
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 ND1 -0.088 2.728
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 O -0.088 3.268
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.088 2.713
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D MET 121 CE -0.089 2.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 -0.089 2.569
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CZ -0.089 3.414
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 CZ -0.089 2.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CZ -0.089 2.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CE2 -0.089 3.489
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 HG -0.090 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B GLU 413 OE1 -0.090 3.270
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASP 112 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 216 NH1 -0.090 2.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLY 249 HA2 -0.090 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PRO 42 HD3 -0.091 2.571
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 HB3 -0.091 2.591
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CB -0.091 2.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 -0.092 3.272
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 C -0.092 2.792
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 HB3 -0.092 2.592
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CB -0.092 3.417
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CZ -0.092 3.492
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 92 CD2 -0.092 2.792
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 CD -0.093 3.273
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 CG -0.093 2.793
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NH2 -0.093 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 114 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 302 CG -0.094 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CG -0.094 3.419
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CD2 -0.094 3.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 CB -0.094 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 81 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 -0.094 3.419
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 85 C -0.094 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 41 CD1 -0.094 3.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 56 HB1 -0.094 2.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE1 -0.095 2.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE2 -0.095 2.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD2 -0.095 2.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 100 HB3 -0.095 2.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH2 -0.096 3.421
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 38 O -0.096 3.276
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 HE2 -0.096 2.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CG -0.097 3.422
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 262 O -0.097 3.277
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C HIS 113 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 CG -0.097 2.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 38 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 118 CG -0.097 3.277
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 NE2 -0.097 3.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 56 HB1 -0.098 2.578
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 HB3 -0.098 2.598
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 OD2 -0.098 2.818
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB3 -0.098 2.798
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HZ -0.098 2.798
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 C -0.098 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A THR 85 C -0.099 2.799
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE1 -0.100 2.580
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 HE2 -0.100 2.725
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.100 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 57 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 75 OG1 -0.100 3.300
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 CB -0.100 3.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 96 CD1 -0.101 2.801
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 211 OD1 -0.102 3.282
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CG -0.102 3.502
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 -0.102 2.802
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 93 OD1 -0.103 2.683
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HG12 -0.103 2.803
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 OE1 -0.104 3.284
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 103 OH -0.104 2.604
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 HH11 -0.104 2.104
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 60 HH11 -0.104 2.104
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CD -0.104 3.504
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 107 CD -0.104 2.804
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 HB3 -0.105 2.585
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 49 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 HB3 -0.105 2.585
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A THR 85 O -0.105 3.285
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 ND1 -0.105 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 100 HB3 -0.105 2.730
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB1 -0.105 2.805
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 41 HD12 -0.105 2.585
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 63 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O -0.106 3.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 93 OD1 -0.106 2.686
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 CZ -0.106 2.806
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CB -0.106 3.306
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.106 3.588
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CB -0.106 3.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.106 3.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 93 OD1 -0.107 2.687
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 HH21 -0.107 2.107
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 86 O -0.107 2.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 CE2 -0.108 3.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ASP 93 OD1 -0.108 2.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 104 OD2 -0.109 3.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 HD1 -0.109 2.809
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE1 -0.110 3.290
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CG -0.111 3.291
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 OE2 -0.111 3.291
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HD2 -0.111 2.591
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B MET 353 HE1 -0.112 2.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 CZ -0.112 3.312
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 OE2 -0.112 2.592
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 CB -0.112 2.812
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CB -0.113 3.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.114 3.439
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 NE -0.114 3.439
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 103 OH -0.114 2.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 C -0.114 3.294
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 HD1 -0.114 2.814
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASP 112 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D GLU 212 OE1 -0.114 3.074
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HB3 -0.114 2.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CE2 -0.115 2.815
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 50 HA -0.115 2.615
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE2 -0.115 2.595
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 NH2 -0.116 2.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CE2 -0.116 3.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 CB -0.116 3.441
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 60 HH11 -0.117 2.742
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 421 HA -0.117 2.117
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 HD2 -0.117 2.117
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 85 C -0.117 2.817
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CB -0.117 3.297
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 CD -0.118 3.443
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 77 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 OE1 -0.118 3.298
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 66 O -0.118 3.298
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 CG -0.119 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CG -0.119 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CZ -0.119 3.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 81 O -0.119 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASN 259 CB -0.120 2.820
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 HB2 -0.120 2.120
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 CB -0.121 3.301
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 HH21 -0.121 2.121
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 108 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 OH -0.121 2.621
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH11 -0.121 2.821
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.122 3.447
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E PHE 40 HE2 -0.122 2.122
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 262 CD2 -0.123 2.823
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 64 OE2 -0.123 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 CG -0.124 3.449
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 O -0.124 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CG -0.124 3.524
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 HD2 -0.124 2.824
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE1 -0.125 2.825
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 104 OD2 -0.125 3.305
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.125 3.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 HE2 -0.125 2.125
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH2 -0.126 2.751
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 CD2 -0.126 3.306
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LEU 96 CD1 -0.126 2.826
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 OD2 -0.126 2.606
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 69 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 CD1 -0.127 2.827
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 60 HD3 -0.127 2.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 HH21 -0.128 2.128
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 262 CD2 -0.128 3.453
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A MET 62 CE -0.128 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 HH21 -0.128 2.128
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 63 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O -0.128 2.608
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 OE1 -0.128 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE1 -0.128 3.308
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 CD -0.128 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CD -0.128 3.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 61 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 O -0.129 2.609
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 265 O -0.129 2.849
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 CB -0.129 3.454
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 HD2 -0.129 2.829
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CB -0.129 2.829
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 HB2 -0.129 2.629
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 CA -0.129 2.829
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.130 2.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 ND1 -0.130 2.855
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD -0.130 3.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 56 CB -0.131 2.831
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 HH -0.131 2.131
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CB -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CB -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 HG22 -0.132 2.757
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CE1 -0.133 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 38 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 118 HG3 -0.133 2.613
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 HZ -0.133 2.133
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 50 HA -0.133 2.633
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 CB -0.133 3.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 CB -0.133 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 35 HB2 -0.133 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 CD2 -0.133 3.533
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 NE2 -0.133 3.458
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE2 -0.134 3.314
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 -0.134 3.534
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 38 O -0.134 3.314
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 CZ -0.134 3.459
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 111 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 107 CD -0.134 2.834
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 CB -0.134 2.834
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 31 CG -0.134 3.459
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 HD2 -0.135 2.135
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 HB2 -0.135 2.835
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 CB -0.135 2.835
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.135 3.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 51 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NH2 -0.135 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 CG -0.136 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CZ -0.136 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 CB -0.136 3.316
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C HIS 113 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B TYR 407 OH -0.136 3.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 54 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 26 CB -0.136 3.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HH21 -0.138 2.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ -0.138 3.538
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 CE -0.138 2.838
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 96 HB3 -0.139 2.139
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CE2 -0.139 2.839
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 NE2 -0.139 2.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 ND1 -0.139 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 56 CB -0.140 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE1 -0.140 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASN 259 O -0.140 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CZ -0.140 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CZ -0.140 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 C -0.140 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LEU 114 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ASP 302 OD2 -0.140 3.320
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 54 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 119 O -0.140 2.620
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE2 -0.141 2.841
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 CZ -0.141 3.541
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CD2 -0.141 2.841
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 CD -0.141 3.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 OH -0.142 3.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 HG23 -0.142 2.142
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CB -0.142 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.142 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 NE -0.143 3.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH2 -0.143 2.768
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 HB3 -0.143 2.623
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 41 HD12 -0.144 2.624
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 -0.144 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 SD -0.144 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CD1 -0.144 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NE -0.145 3.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CD -0.145 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CD2 -0.145 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CB -0.145 3.470
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 50 HA -0.145 2.645
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 HB2 -0.146 2.146
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 116 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 CG -0.146 3.326
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 NE2 -0.146 2.771
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 CG2 -0.146 3.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 HD11 -0.146 2.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ASP 38 O -0.147 3.327
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLU 255 CD -0.147 3.472
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 24 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 NH1 -0.147 3.397
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CD2 -0.147 3.327
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 CE -0.147 2.847
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 97 ND1 -0.147 2.772
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 78 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 OE1 -0.148 3.328
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 34 HB -0.148 2.148
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A THR 85 C -0.148 3.548
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 CG -0.148 3.328
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A THR 85 C -0.148 3.548
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CZ -0.149 3.549
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 HB2 -0.149 2.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.149 2.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 NE2 -0.149 2.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CA -0.149 3.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 HD11 -0.149 2.629
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 HB3 -0.150 2.150
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 HH21 -0.150 2.150
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.150 3.400
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE1 -0.150 3.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.150 2.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HE -0.150 2.150
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH1 -0.150 2.855
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 76 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D MET 121 CE -0.150 3.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 HE2 -0.151 2.151
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 CB -0.151 3.331
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 85 O -0.151 2.631
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE -0.151 2.851
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HE1 -0.152 2.632
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CZ -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 85 O -0.152 3.332
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE2 -0.152 2.632
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CD2 -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 CB -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 86 O -0.153 3.333
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CE1 -0.153 3.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O -0.153 3.113
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 NH2 -0.153 2.778
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD -0.153 3.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 19 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 419 SD -0.153 3.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 NE2 -0.153 3.493
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HE1 -0.153 2.633
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 HE1 -0.153 2.153
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 OH -0.154 2.654
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CZ -0.154 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 CD1 -0.154 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE2 -0.155 2.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 HB1 -0.155 2.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HB3 -0.155 2.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CE2 -0.155 3.480
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 93 OD1 -0.155 2.735
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE2 -0.156 2.856
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 OH -0.156 3.356
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 OE2 -0.156 3.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A THR 85 C -0.157 2.857
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 CE1 -0.157 2.857
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 HA -0.157 2.857
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 89 HD2 -0.157 2.857
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 CG2 -0.157 3.557
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.158 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 NE2 -0.158 3.483
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 HE2 -0.158 2.783
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 HB2 -0.159 2.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 HE1 -0.159 2.159
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 CB -0.159 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HD1 -0.159 2.159
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 HG12 -0.159 2.859
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 262 CZ -0.160 2.860
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 260 OD2 -0.160 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 CG2 -0.160 2.860
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 N -0.160 3.410
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 89 HD2 -0.160 2.860
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 84 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ASP 409 CG -0.160 3.485
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 35 HA -0.160 2.160
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.161 3.643
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLN 46 NE2 -0.161 2.786
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 NH2 -0.161 3.411
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 HH22 -0.161 2.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 HB3 -0.161 2.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 CD -0.162 3.562
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CE1 -0.162 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 CZ -0.162 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 C -0.162 3.562
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HB3 -0.163 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 HG12 -0.163 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CZ -0.163 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 HB2 -0.163 2.663
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 CZ -0.163 3.563
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 CD1 -0.163 3.563
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CG -0.164 3.364
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 HG12 -0.164 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 C -0.164 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 114 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASP 302 CG -0.165 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 HZ -0.165 2.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 HH21 -0.165 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CG -0.165 3.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 104 OD2 -0.165 2.645
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 103 CE2 -0.165 3.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HG12 -0.165 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE2 -0.165 3.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 NE -0.165 2.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 69 HG -0.166 2.866
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 HB3 -0.166 2.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 CE1 -0.166 2.866
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 OE1 -0.166 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HE3 -0.167 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CD2 -0.167 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 69 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 HD12 -0.167 2.167
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 104 OD1 -0.168 2.873
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 41 HG12 -0.168 2.868
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 SD -0.169 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 89 HD2 -0.169 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 C -0.169 3.569
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 89 HD2 -0.169 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 100 CB -0.170 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CE2 -0.170 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 NE2 -0.170 3.510
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 92 CD2 -0.170 3.570
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 CG -0.170 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NE -0.170 2.895
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LEU 18 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD2 -0.171 3.571
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 ND1 -0.171 3.511
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HE3 -0.171 2.171
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CG -0.171 3.571
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 114 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASP 302 CG -0.172 3.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CZ -0.172 3.572
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 OE2 -0.172 2.652
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB -0.172 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 89 HD2 -0.172 2.872
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 41 HG12 -0.172 2.872
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E PHE 40 CE2 -0.173 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 HB2 -0.173 2.813
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NE -0.173 2.898
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 68 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 HG23 -0.173 2.173
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 HD3 -0.173 2.173
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 14 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 24 HG3 -0.173 2.173
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 212 OE1 -0.173 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 54 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 CG2 -0.173 3.573
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 81 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CZ -0.173 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 OD2 -0.174 2.654
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 -0.174 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 OH -0.174 2.674
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.174 3.499
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 89 HD2 -0.174 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 HD2 -0.174 2.174
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 CD -0.175 3.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 CG -0.175 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 75 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CE1 -0.175 2.875
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 CZ -0.176 3.576
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 CZ -0.176 2.876
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ILE 261 CD1 -0.176 3.501
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 69 HG -0.177 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.177 2.177
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE2 -0.177 2.882
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CD2 -0.177 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 CE -0.178 3.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 260 CG -0.178 3.503
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 HB3 -0.179 2.179
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 C -0.179 3.504
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 NE2 -0.179 3.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CD2 -0.179 2.879
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 N -0.179 3.429
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 HA -0.179 2.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 OD2 -0.180 2.660
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CE2 -0.180 2.880
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 CE -0.180 2.880
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 CG -0.180 2.880
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.180 3.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CD2 -0.180 2.880
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLU 255 OE2 -0.180 2.885
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 41 HG12 -0.181 2.881
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 CG -0.181 3.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ILE 258 HG22 -0.181 2.181
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 HB2 -0.181 2.881
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE2 -0.182 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 NE2 -0.182 2.807
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HZ -0.182 2.182
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE2 -0.182 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B MET 353 SD -0.182 3.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CZ -0.183 3.383
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 216 HH11 -0.183 2.183
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 NH2 -0.183 3.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE1 -0.183 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 89 HE3 -0.183 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 50 HA -0.184 2.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 HB2 -0.184 2.809
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LEU 92 CD2 -0.184 2.884
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 CZ -0.184 2.884
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CZ -0.184 2.884
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ILE 258 HD11 -0.184 2.884
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 HA -0.184 2.184
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 40 HA -0.184 2.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 O -0.185 2.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 HA -0.185 2.885
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CB -0.185 2.885
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 CG -0.186 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CD2 -0.186 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 HZ -0.187 2.187
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG22 -0.187 2.187
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE2 -0.187 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 97 HE1 -0.187 2.187
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CZ -0.187 3.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 HD2 -0.188 2.188
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 93 OD1 -0.188 2.768
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 41 CD1 -0.188 3.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 CZ -0.188 2.888
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HZ -0.188 2.888
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.188 2.188
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 CD -0.188 2.888
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 41 CD1 -0.189 3.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 NE2 -0.189 3.514
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 35 CA -0.189 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 HG12 -0.189 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 NE2 -0.190 3.515
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 104 OD2 -0.190 2.670
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 NE -0.190 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 120 CD -0.190 2.890
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 HH11 -0.190 2.815
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 77 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 39 OE1 -0.190 3.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 N -0.191 3.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE2 -0.191 2.896
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 CD -0.191 3.591
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 CB -0.191 2.891
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 CD1 -0.191 3.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 57 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 75 OG1 -0.192 2.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 HB3 -0.192 2.672
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 100 HB3 -0.192 2.817
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CB -0.192 3.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 HB3 -0.192 2.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 HB2 -0.192 2.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 31 OD1 -0.192 3.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 NE2 -0.192 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 NE2 -0.193 2.818
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CD2 -0.193 2.893
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG2 -0.193 3.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 OE2 -0.193 2.898
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH11 -0.193 2.193
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 CB -0.193 2.893
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 HG2 -0.193 2.893
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 CZ -0.194 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 OH -0.194 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 41 CD1 -0.194 3.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH1 -0.194 2.899
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 O -0.194 2.899
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 -0.195 3.520
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 N -0.195 2.820
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 41 CD1 -0.196 3.376
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 CZ -0.196 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CD2 -0.196 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 OD2 -0.196 3.376
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CZ -0.196 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D MET 121 CE -0.196 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 NE2 -0.196 3.521
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASN 78 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 38 OD1 -0.196 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NE -0.196 2.921
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 HD2 -0.196 2.896
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 69 HG -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 CD2 -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B MET 353 SD -0.197 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 HD2 -0.197 2.197
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 HD2 -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ASP 302 OD2 -0.197 3.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HZ -0.198 2.898
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 HG22 -0.198 2.198
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 107 OE1 -0.198 2.278
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 38 O -0.198 3.378
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.199 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 103 HH -0.199 2.199
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LYS 89 HD2 -0.199 2.899
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE1 -0.199 2.779
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B MET 353 HB3 -0.199 2.899
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 CZ -0.199 3.599
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 O -0.199 2.904
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HZ -0.200 2.200
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HB2 -0.200 2.700
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 50 HA -0.200 2.700
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 OE2 -0.200 3.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.201 3.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 HH12 -0.201 2.201
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 O -0.201 3.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 69 HG -0.202 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B MET 353 CB -0.202 3.527
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE2 -0.202 2.907
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 103 CE2 -0.202 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 54 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 26 HB3 -0.202 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 HB3 -0.203 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HB3 -0.203 2.203
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 C -0.203 2.903
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 HG3 -0.203 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HA -0.203 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 CD -0.203 2.903
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 HB3 -0.203 2.203
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E PHE 40 CE2 -0.203 2.903
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 53 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NH2 -0.204 3.529
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE1 -0.204 2.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CB -0.204 3.604
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 CE1 -0.204 3.384
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 56 CB -0.204 3.384
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CB -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH2 -0.205 3.455
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NH2 -0.206 2.831
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE1 -0.206 2.686
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE2 -0.206 2.911
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 252 OD1 -0.206 2.911
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CD1 -0.206 2.906
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 85 C -0.207 3.607
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 HD2 -0.207 2.907
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 -0.207 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 O -0.207 3.387
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 36 CG2 -0.207 2.907
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 107 CD -0.208 3.533
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 81 O -0.208 3.388
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 262 HZ -0.208 2.208
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 O -0.208 2.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 NE2 -0.208 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CZ -0.208 2.908
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 38 O -0.208 2.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 CB -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 CZ -0.209 3.609
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 CE -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B PHE 416 HE1 -0.209 2.209
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ARG 24 HG3 -0.209 2.834
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 114 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 302 CG -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 HE1 -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CE2 -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 CD2 -0.209 2.909
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 C -0.210 3.535
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LEU 69 HG -0.210 2.910
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 116 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 ND1 -0.210 2.930
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LEU 69 HG -0.210 2.910
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 O -0.210 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH2 -0.210 3.535
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 O -0.210 3.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 121 HE2 -0.211 2.211
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HD11 -0.211 2.211
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 41 CD1 -0.211 3.391
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 121 HE2 -0.211 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 CG -0.211 3.611
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 HD2 -0.211 2.211
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 HB2 -0.212 2.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 69 HG -0.212 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 HB3 -0.212 2.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 CZ -0.212 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 211 CA -0.212 3.537
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 HD2 -0.212 2.212
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 OE2 -0.212 2.917
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 CB -0.213 2.913
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.213 3.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 -0.213 2.913
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 HB2 -0.213 2.713
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 HB3 -0.213 2.213
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 ND1 -0.214 3.539
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 CE2 -0.214 3.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CE2 -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 NE2 -0.215 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 CB -0.215 3.615
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 HD11 -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 NH2 -0.215 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 CG -0.215 3.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 86 HB1 -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 HB3 -0.215 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CB -0.216 3.616
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 NH2 -0.216 2.841
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 HD2 -0.216 2.216
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 C -0.216 3.541
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CB -0.216 2.916
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB3 -0.217 2.217
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 NH2 -0.217 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CZ -0.217 3.617
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HG2 -0.217 2.697
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 CD -0.217 3.617
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 31 CG -0.218 2.918
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 56 CB -0.218 2.918
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 CE1 -0.219 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE2 -0.219 2.699
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG23 -0.219 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 CE -0.219 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 -0.219 2.924
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLY 249 CA -0.219 3.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B MET 353 SD -0.219 3.226
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CD2 -0.219 3.399
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 NE2 -0.219 2.859
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D VAL 253 CG2 -0.219 3.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 NH2 -0.219 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HE3 -0.220 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ -0.220 3.620
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 CZ -0.220 3.620
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 CD2 -0.220 2.920
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG2 -0.220 2.920
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 CD1 -0.221 3.401
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 260 CG -0.221 2.921
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 54 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 HG23 -0.221 2.221
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 HG21 -0.221 2.846
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE2 -0.221 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 CB -0.221 2.921
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 HE22 -0.221 2.921
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 CE -0.222 3.402
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HB2 -0.222 2.722
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CE1 -0.222 3.422
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 83 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HH21 -0.222 2.922
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 CD1 -0.223 3.403
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 NE -0.223 2.848
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG22 -0.223 2.848
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CD -0.223 2.923
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CZ -0.223 3.548
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 107 CD -0.223 2.923
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 CG -0.223 2.923
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 64 OE2 -0.223 2.928
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE1 -0.224 3.624
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 HD11 -0.224 2.704
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 HD2 -0.224 2.924
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 NH2 -0.224 3.549
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH2 -0.224 3.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 41 HG12 -0.224 2.924
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 24 CA -0.225 3.405
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 -0.225 2.850
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A MET 62 SD -0.225 3.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 C -0.225 3.625
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 CB -0.225 2.925
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 HD1 -0.225 2.325
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE1 -0.225 3.625
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 CE -0.225 2.925
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 CZ -0.225 3.625
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.226 3.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD2 -0.226 3.186
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HE2 -0.226 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CE -0.226 3.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.226 2.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.227 2.307
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 CE1 -0.227 3.627
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 84 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 255 OE2 -0.227 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 115 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 211 OD1 -0.227 2.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 85 O -0.227 2.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 61 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 O -0.228 3.408
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 CB -0.228 3.628
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH1 -0.228 2.933
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 35 CB -0.228 3.628
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 100 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 60 HD3 -0.228 2.228
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE1 -0.228 3.628
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 HG2 -0.228 2.928
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 HD2 -0.228 2.928
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 CZ -0.229 3.554
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CD -0.229 3.629
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 211 CA -0.229 3.554
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 H -0.229 2.309
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.229 3.011
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 HE2 -0.229 2.229
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 69 HG -0.230 2.930
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.230 3.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 CA -0.230 3.410
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A THR 85 O -0.230 2.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 HG2 -0.230 2.930
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.231 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 50 CA -0.231 3.431
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 CZ -0.231 3.631
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 56 CB -0.231 3.411
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LEU 92 HD22 -0.232 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 O -0.232 2.937
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 103 OH -0.233 3.433
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ILE 75 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 262 CD1 -0.233 2.933
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ILE 261 HD12 -0.233 2.858
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 36 CD2 -0.233 3.413
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 HH -0.233 2.933
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NE -0.234 2.859
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH1 -0.234 2.859
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 HD11 -0.234 2.934
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 50 HA -0.234 2.734
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 -0.234 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 HB3 -0.234 2.234
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 HH12 -0.235 2.235
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 41 HG12 -0.235 2.935
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CB -0.235 2.935
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH2 -0.235 3.560
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ILE 258 CG2 -0.235 3.560
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 CB -0.236 3.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 24 HG12 -0.236 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 53 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HA -0.236 2.236
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 89 HD2 -0.236 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CG -0.236 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 HB3 -0.236 2.236
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CZ -0.236 3.416
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 46 CD -0.237 3.637
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 410 HG -0.237 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 HH21 -0.237 2.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 HD3 -0.237 2.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 HD2 -0.237 2.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 34 CB -0.237 3.562
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 OD2 -0.237 2.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 HB3 -0.238 2.238
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 HD1 -0.238 2.338
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 96 CB -0.238 3.438
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG12 -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE -0.238 3.563
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HE1 -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CD2 -0.238 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 HB1 -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 CB -0.238 3.638
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C HIS 113 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 211 OD1 -0.238 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 ND1 -0.238 3.563
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 HB3 -0.239 2.239
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 87 HG -0.239 2.239
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLN 17 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 CG -0.239 3.419
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.239 2.944
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 CZ -0.239 3.639
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 46 NE2 -0.239 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 HG12 -0.240 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LYS 89 HD2 -0.240 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 103 OH -0.240 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ASP 302 OD2 -0.240 2.320
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HG3 -0.240 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 302 HB2 -0.241 2.241
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 OD1 -0.241 2.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASN 78 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 38 CG -0.242 3.567
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 CD -0.242 2.942
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 CB -0.242 3.642
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 61 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 O -0.242 3.422
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 85 C -0.242 3.642
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH1 -0.242 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 HH12 -0.243 2.868
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH12 -0.243 2.323
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 O -0.243 2.948
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 114 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ASP 302 CG -0.244 2.944
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 C -0.244 3.644
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH2 -0.244 3.569
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.244 2.944
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 69 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 HD12 -0.244 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 21 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 HD2 -0.244 2.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.244 2.949
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 56 HB1 -0.244 2.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 CD -0.244 3.644
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HE2 -0.244 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 O -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 255 OE1 -0.245 2.325
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 CZ -0.245 3.645
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 CG -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NE -0.245 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 CG -0.245 2.945
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 66 O -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD2 -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 HZ -0.246 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ -0.246 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 118 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 NE2 -0.246 3.571
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 CA -0.246 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CG -0.246 3.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 93 OD1 -0.246 2.326
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ILE 105 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CD2 -0.246 3.426
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 HE1 -0.246 2.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD -0.247 2.947
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 104 OD2 -0.247 3.427
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 CB -0.247 3.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CD -0.247 3.647
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 23 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 NH1 -0.248 3.573
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 HB3 -0.248 2.248
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 HG3 -0.248 2.948
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 OE1 -0.248 2.728
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 OE2 -0.248 3.428
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 419 SD -0.248 3.255
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 HB1 -0.248 2.728
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CD2 -0.249 3.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 NE2 -0.249 3.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 HG23 -0.249 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 -0.249 3.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 CB -0.249 2.949
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 131 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 65 O -0.250 2.955
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 92 CD2 -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 HG2 -0.250 2.875
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG1 -0.250 3.650
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 69 HG -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CG -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 97 CE1 -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 CZ -0.251 3.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 OE1 -0.251 3.431
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LEU 18 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 -0.251 3.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 CB -0.251 3.651
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ILE 258 HD13 -0.251 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 CD -0.251 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 HB2 -0.251 2.751
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CZ -0.252 2.952
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 HE1 -0.252 2.952
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 35 HA -0.252 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A THR 85 C -0.252 3.652
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 HB2 -0.252 2.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 HB3 -0.252 2.952
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 OE1 -0.252 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CE1 -0.252 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 HG21 -0.252 2.952
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 OH -0.252 2.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 HB3 -0.253 2.733
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASN 78 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 38 HA -0.253 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 89 HD2 -0.253 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE -0.253 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CB -0.253 3.653
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE2 -0.253 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 NE2 -0.253 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 ND1 -0.253 2.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 HG2 -0.254 2.879
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CG -0.254 2.954
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 CG -0.254 3.579
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 HB3 -0.255 2.255
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 HE21 -0.255 2.955
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CD1 -0.255 3.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A THR 85 O -0.255 2.735
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE1 -0.256 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CD -0.256 3.656
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 103 OH -0.256 3.456
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 HD3 -0.256 2.881
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CD2 -0.256 3.656
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 C -0.256 3.581
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 HB3 -0.256 2.256
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 CZ -0.256 2.956
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE1 -0.256 2.956
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 HH11 -0.256 2.881
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CD2 -0.257 3.657
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HD13 -0.257 2.957
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CE1 -0.257 2.957
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 CG -0.257 3.582
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 -0.257 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HE2 -0.257 2.257
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 24 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 31 OD2 -0.257 3.437
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A VAL 40 HG13 -0.257 2.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HD1 -0.257 2.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A THR 85 O -0.258 2.738
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 HB2 -0.258 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE1 -0.258 3.658
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH2 -0.258 3.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 HG3 -0.258 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 CG -0.258 3.658
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB1 -0.258 2.738
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 OD2 -0.258 2.963
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NE -0.259 2.984
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 HB3 -0.259 2.259
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CG -0.259 2.959
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 66 O -0.259 3.439
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NH2 -0.259 2.884
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 HZ1 -0.259 2.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 53 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CA -0.259 2.959
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 419 CG -0.259 2.959
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 CB -0.259 3.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B MET 353 SD -0.260 3.267
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 O -0.260 2.340
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CZ -0.260 2.960
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLY 22 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 425 O -0.260 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 HB3 -0.260 2.960
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLY 22 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 O -0.260 3.440
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 CZ -0.260 3.660
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 HG12 -0.260 2.960
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 NE2 -0.260 2.885
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 41 HG12 -0.261 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 CB -0.261 3.441
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 OE1 -0.261 2.841
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE2 -0.261 2.966
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 73 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE2 -0.261 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH1 -0.261 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 103 OH -0.261 2.761
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 85 C -0.261 3.661
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 NE2 -0.262 3.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 36 HG23 -0.262 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 CD -0.262 2.962
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH1 -0.262 3.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH1 -0.262 3.587
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 84 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D HIS 267 HE1 -0.262 2.262
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 HE2 -0.263 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.263 3.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 424 CB -0.263 3.588
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE1 -0.263 3.663
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 -0.263 2.888
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 H -0.263 2.343
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 57 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 75 HG1 -0.263 2.963
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE1 -0.264 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 CZ -0.264 3.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 84 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D HIS 267 HE1 -0.264 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 HG2 -0.264 2.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 CD1 -0.264 2.964
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 O -0.264 2.344
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 255 OE1 -0.264 2.969
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CB -0.264 2.964
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 HE1 -0.264 2.264
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 CE -0.265 3.665
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 103 HH -0.265 2.890
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B MET 353 SD -0.265 3.747
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 O -0.265 3.445
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 CD -0.265 2.965
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 CZ -0.266 3.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CZ -0.267 3.667
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 C -0.267 2.967
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG1 -0.267 2.967
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 66 O -0.267 2.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 CZ -0.268 3.668
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 OH -0.268 3.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 NE2 -0.268 2.893
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CZ -0.268 2.968
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 84 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ASP 409 OD2 -0.268 2.348
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 HE1 -0.268 2.268
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 212 CG -0.268 3.448
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 CZ -0.268 3.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 73 O -0.269 2.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C MET 57 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A THR 75 OG1 -0.269 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HZ -0.269 2.969
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HG2 -0.269 2.749
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 CB -0.269 3.669
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH1 -0.269 3.594
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 64 OE2 -0.269 2.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE1 -0.269 2.849
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 CZ -0.269 2.969
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH1 -0.270 3.520
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 260 OD2 -0.270 2.350
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 CB -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 76 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 CB -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 HA -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE1 -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 55 CD1 -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG2 -0.271 3.671
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 OE1 -0.271 2.751
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 OD1 -0.271 2.351
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 421 CA -0.271 2.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CB -0.271 2.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 60 CD -0.272 3.597
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 110 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 59 NZ -0.272 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 OE1 -0.272 2.977
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CE -0.272 3.672
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE2 -0.272 2.972
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 120 OE1 -0.272 2.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 84 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D HIS 267 CE1 -0.272 3.597
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 50 CA -0.272 3.472
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 HD1 -0.272 2.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 HE1 -0.272 2.972
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 36 HD12 -0.273 2.973
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 OD1 -0.273 3.453
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 93 OD1 -0.273 2.853
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE2 -0.273 2.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 73 O -0.273 2.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASN 259 N -0.274 3.524
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 34 HG21 -0.274 2.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CB -0.274 3.674
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE1 -0.274 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 CD -0.274 2.974
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 31 CG -0.274 3.599
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 HB2 -0.275 2.900
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 40 HG13 -0.275 2.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 77 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 90 CD1 -0.275 3.600
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE1 -0.275 3.455
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 -0.275 2.975
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 107 OE1 -0.275 2.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB2 -0.276 2.276
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 CB -0.276 3.676
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CZ -0.276 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 CB -0.276 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 61 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 HD11 -0.276 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 -0.276 2.756
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD2 -0.276 3.456
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 89 CE -0.276 3.676
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 O -0.276 2.356
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 CB -0.276 3.476
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HA -0.276 2.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CD1 -0.276 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 54 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 26 HB3 -0.277 2.977
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 O -0.277 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 103 CE2 -0.277 3.677
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH2 -0.277 3.602
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 HE22 -0.277 2.977
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 62 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 265 HH12 -0.277 2.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 73 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CD1 -0.277 3.677
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.277 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 CB -0.277 3.677
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE1 -0.278 2.858
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 HD2 -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE2 -0.278 2.758
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 111 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 107 OE1 -0.278 2.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 -0.278 3.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PRO 42 CD -0.278 3.458
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 86 C -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 96 HB3 -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 CB -0.278 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD2 -0.278 3.678
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 263 CE1 -0.279 2.979
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CD1 -0.279 2.979
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A THR 85 C -0.279 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 92 HD22 -0.279 2.979
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH1 -0.279 2.984
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 20 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PRO 120 CA -0.279 3.459
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 68 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 HG23 -0.279 2.279
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 HZ -0.279 2.279
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 41 CD1 -0.279 3.459
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH1 -0.280 3.605
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LEU 92 CD2 -0.280 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 266 CE1 -0.280 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD2 -0.280 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CG -0.280 3.460
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 NE2 -0.280 3.605
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 HH22 -0.280 2.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 41 HG12 -0.280 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 86 O -0.281 3.461
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 93 OD1 -0.281 2.861
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE2 -0.281 2.361
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NE -0.281 2.906
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 HB3 -0.281 2.981
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PRO 42 HD3 -0.281 2.761
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 OE2 -0.281 3.241
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A MET 62 CE -0.282 3.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 121 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 93 OD1 -0.282 2.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 HE2 -0.282 2.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 OE2 -0.282 2.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 OE1 -0.282 2.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 CD -0.282 3.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 O -0.282 2.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 CD -0.282 2.982
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 56 CB -0.282 3.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 260 OD2 -0.282 2.987
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 CA -0.283 3.608
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 38 O -0.283 2.763
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A VAL 40 CG1 -0.283 3.463
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 212 H -0.284 2.284
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 114 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 302 CG -0.284 3.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 302 CB -0.284 2.984
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 107 OE1 -0.284 3.464
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B MET 353 SD -0.284 3.291
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CE2 -0.284 3.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 78 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 CD -0.284 3.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 HB2 -0.284 2.284
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PRO 42 CD -0.284 3.464
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.284 2.989
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 61 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 O -0.285 3.465
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 NE2 -0.285 2.910
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 100 CB -0.285 3.685
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 HE22 -0.285 2.985
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 NH1 -0.285 3.610
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 CD -0.285 3.685
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 HH11 -0.285 2.910
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 211 HA -0.285 2.285
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PRO 42 CD -0.285 3.465
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 73 O -0.285 2.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 NE2 -0.286 3.611
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 HD23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG12 -0.286 2.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HG13 -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 103 CZ -0.286 3.686
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 77 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 90 HD13 -0.286 2.911
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 41 HG12 -0.286 2.986
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NE -0.286 3.011
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 103 OH -0.287 2.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 CB -0.287 3.687
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 HH21 -0.287 2.287
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 HE1 -0.287 2.987
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 107 OE1 -0.287 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 78 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A VAL 40 O -0.287 3.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CE -0.288 2.988
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 HG2 -0.288 2.988
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 96 CD1 -0.288 3.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CD -0.288 3.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CZ -0.288 2.988
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 -0.289 3.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 84 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 255 OE2 -0.289 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 HE22 -0.289 2.989
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C HIS 113 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D GLU 212 HB2 -0.289 2.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CB -0.289 3.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 424 HB3 -0.289 2.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE1 -0.289 2.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 HB2 -0.289 2.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH2 -0.289 2.914
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 O -0.289 2.994
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 NE2 -0.290 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A TYR 103 OH -0.290 3.490
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE1 -0.290 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 CD -0.290 2.990
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 CD -0.290 3.690
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 O -0.290 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 81 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 90 CD1 -0.290 3.470
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE2 -0.291 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 OE1 -0.291 2.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 CD2 -0.291 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NE -0.291 3.016
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 73 O -0.291 2.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 56 CB -0.291 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 50 CA -0.291 3.491
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLN 46 NE2 -0.292 2.917
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 CZ -0.292 3.617
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 66 O -0.292 2.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASN 259 O -0.292 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CZ -0.292 3.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HE2 -0.292 2.992
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 73 O -0.292 2.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CE1 -0.292 3.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 HB2 -0.292 2.292
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 128 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.292 2.772
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 NE2 -0.292 2.917
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 56 HB1 -0.292 2.772
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 HD13 -0.293 2.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 66 O -0.293 2.373
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH1 -0.293 3.618
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 O -0.293 2.373
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 HA -0.293 2.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH2 -0.293 3.543
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 OH -0.294 3.494
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CE2 -0.294 3.694
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLN 46 NE2 -0.294 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 ND1 -0.294 3.034
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C MET 57 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A THR 75 OG1 -0.294 3.494
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 HE22 -0.294 2.994
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 O -0.294 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 66 O -0.294 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LYS 50 CA -0.295 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 61 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 HD11 -0.295 2.995
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 HZ3 -0.295 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 119 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 HE2 -0.295 2.995
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 108 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 260 OD2 -0.295 3.475
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 HZ1 -0.295 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASN 108 ND2 -0.295 3.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 CZ -0.295 2.995
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B TYR 386 HE1 -0.295 2.995
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E VAL 36 HG22 -0.295 2.295
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 HH22 -0.295 2.995
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ASP 302 OD2 -0.296 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE1 -0.296 2.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 73 O -0.296 2.376
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CG -0.296 3.496
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 CA -0.296 2.996
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CZ -0.296 3.696
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 107 CD -0.297 3.622
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 69 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 CD1 -0.297 3.622
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HD11 -0.298 2.998
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLN 46 CD -0.298 3.698
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C MET 57 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A THR 75 OG1 -0.298 2.798
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 56 HB2 -0.298 2.298
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 OE1 -0.299 2.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 CG2 -0.299 3.624
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HE2 -0.299 2.999
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E MET 85 H -0.299 2.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 HE22 -0.299 2.999
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 54 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 26 HB3 -0.299 2.999
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 CB -0.299 2.999
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 -0.299 2.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE1 -0.300 3.700
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 NE -0.300 3.625
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 NE2 -0.300 3.025
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 NE2 -0.300 3.625
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 86 C -0.300 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 HB1 -0.300 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 111 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 107 OE1 -0.300 2.380
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CZ -0.301 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 CZ -0.301 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 HE1 -0.301 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 20 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 -0.301 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 114 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASP 302 OD2 -0.301 2.781
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 80 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 SD -0.302 3.084
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH1 -0.302 2.927
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 54 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 HG23 -0.302 3.002
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 HD2 -0.302 2.302
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH11 -0.302 2.927
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 56 CB -0.303 3.003
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 119 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 96 HB3 -0.303 2.303
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A THR 85 O -0.303 2.783
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CE1 -0.303 3.703
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASN 259 CB -0.303 3.628
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 HB1 -0.303 3.003
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 78 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 37 O -0.303 2.383
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 HE1 -0.303 3.003
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 73 O -0.303 2.383
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 CG -0.303 3.703
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 216 HH11 -0.304 3.004
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 CE1 -0.304 3.704
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 HE1 -0.304 2.304
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG12 -0.304 2.304
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 HE1 -0.304 2.804
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 127 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 65 HG2 -0.304 2.304
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 84 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ASP 409 CG -0.304 3.004
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CD1 -0.304 3.704
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NE -0.304 3.629
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CD -0.305 3.005
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 212 HG3 -0.305 3.005
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 423 CB -0.305 3.645
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 CG -0.305 3.630
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C HIS 113 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CD1 -0.305 3.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 116 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A HIS 97 HE1 -0.305 3.005
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CZ -0.305 3.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 OE1 -0.305 2.785
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 56 CB -0.305 3.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HE -0.305 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 73 O -0.305 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 24 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 HH12 -0.305 2.305
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 O -0.306 2.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 -0.306 2.931
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 HD2 -0.306 2.306
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 51 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HH22 -0.306 2.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CD2 -0.306 3.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CB -0.307 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASN 120 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 CE -0.307 3.487
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 66 O -0.307 3.487
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 39 O -0.307 3.012
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 NE2 -0.307 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 CG -0.307 3.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 HD23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG1 -0.307 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG2 -0.307 3.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE1 -0.307 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 NE -0.307 3.557
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 81 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HE2 -0.308 2.933
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 39 O -0.308 3.013
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B GLU 413 OE1 -0.308 2.388
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 CE1 -0.309 3.009
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 OD1 -0.309 3.014
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HE1 -0.309 3.009
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 HD2 -0.310 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH1 -0.310 3.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 CD -0.310 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE1 -0.310 3.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 CD -0.310 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 HG3 -0.310 2.310
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HZ -0.310 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 CZ -0.310 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 89 CD -0.310 3.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 78 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ASP 37 O -0.311 3.016
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH1 -0.311 2.936
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 41 HG12 -0.311 3.011
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 CG -0.311 3.636
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CB -0.312 3.012
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CE1 -0.312 3.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 66 O -0.312 2.392
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 HH11 -0.312 2.392
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 NE2 -0.312 2.937
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 69 CG -0.312 3.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HE2 -0.312 2.312
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CE1 -0.312 3.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 424 HA -0.312 2.312
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 110 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 59 HZ2 -0.312 3.012
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 81 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.313 3.638
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 HD1 -0.313 3.013
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 66 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 OE2 -0.313 2.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D MET 121 HE2 -0.313 2.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HD2 -0.313 2.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASP 260 OD2 -0.313 2.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 HE22 -0.314 3.014
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 OE1 -0.314 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 O -0.314 2.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 88 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 32 OD1 -0.314 3.019
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 39 O -0.315 2.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH2 -0.315 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.315 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 OE2 -0.315 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HZ -0.315 2.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 41 HG12 -0.315 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A THR 85 O -0.315 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 -0.315 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 108 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ASP 260 OD2 -0.316 2.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 HE1 -0.316 3.016
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 51 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NH2 -0.316 3.641
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 50 CA -0.316 3.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 HE2 -0.316 2.416
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 HB2 -0.316 2.316
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 92 HD23 -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 CG -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 92 HD23 -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 263 HE1 -0.317 2.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 56 HB2 -0.317 2.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ILE 258 CG2 -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 56 CB -0.317 3.017
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A PHE 53 HB3 -0.317 2.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 14 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 OE1 -0.318 2.398
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 16 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 OD1 -0.318 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 54 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 119 O -0.318 2.798
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 HB3 -0.318 2.318
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 416 CE1 -0.318 3.718
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CG -0.319 3.499
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LYS 89 CD -0.319 3.719
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 119 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 NE2 -0.319 3.584
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 NE2 -0.319 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B MET 353 CE -0.319 3.644
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 128 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 HB2 -0.319 2.319
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 OH -0.320 3.520
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 CZ -0.320 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 -0.320 2.900
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 60 HD3 -0.320 2.945
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B MET 353 CE -0.320 3.645
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB -0.320 3.720
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A VAL 40 O -0.320 3.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 HD23 -0.320 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 NE2 -0.320 2.945
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 OE1 -0.320 2.800
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 107 CD -0.321 3.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HE3 -0.321 3.021
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASP 112 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 216 HH12 -0.321 2.401
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ASP 421 HA -0.321 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HE2 -0.321 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 86 HB2 -0.322 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 77 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 38 HB3 -0.322 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH1 -0.322 2.947
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 107 OE1 -0.322 3.502
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 HG12 -0.323 3.023
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CD2 -0.323 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 262 HD2 -0.323 2.948
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 73 O -0.323 2.403
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CB -0.323 3.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 52 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 CB -0.323 3.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A PHE 53 CG -0.323 3.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E PHE 40 HE2 -0.324 2.324
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 66 O -0.324 2.404
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 19 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLN 270 NE2 -0.324 3.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CD -0.324 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 CG -0.324 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 53 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB2 -0.324 2.324
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 HE3 -0.324 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 HG2 -0.324 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 89 HZ3 -0.324 2.404
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 NE2 -0.324 2.964
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 CA -0.324 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 76 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 CG -0.324 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 HH11 -0.325 2.325
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 CZ -0.325 3.025
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 HB3 -0.325 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C HIS 113 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ASP 104 CG -0.325 3.725
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 CZ -0.326 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 HA -0.326 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 CE1 -0.326 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 OE1 -0.326 2.406
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 69 CG -0.326 3.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 69 HG -0.326 3.026
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 86 O -0.326 3.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CD2 -0.326 3.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 SD -0.326 3.808
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 HB2 -0.326 2.951
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 -0.326 3.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CB -0.326 3.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 103 CE2 -0.326 3.726
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 OE2 -0.327 2.407
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 89 CE -0.327 3.527
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 OG -0.327 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 CG -0.327 3.027
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 CD -0.327 3.727
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 216 NH1 -0.327 2.952
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 HB3 -0.327 2.327
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.328 3.810
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 HG3 -0.328 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 263 CE1 -0.328 3.728
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 69 CD1 -0.328 3.728
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 HA -0.328 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 86 HB2 -0.329 3.029
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 O -0.329 3.509
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 CD -0.329 3.029
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 HH21 -0.329 2.954
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 HA -0.329 2.329
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 CE -0.330 3.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 O -0.330 3.035
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 413 OE1 -0.330 3.510
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 CG -0.330 3.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CE1 -0.330 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 73 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ILE 258 CD1 -0.330 3.730
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 CD -0.330 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 HH21 -0.330 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 HH22 -0.330 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 41 HG12 -0.330 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CG -0.330 3.730
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 CD -0.330 3.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B GLU 413 HG2 -0.330 2.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 35 CA -0.330 3.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CD1 -0.330 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 96 HB3 -0.331 3.031
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 69 CG -0.331 3.731
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CD2 -0.331 3.731
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 16 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 OD1 -0.331 3.511
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 HD2 -0.331 2.956
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 CB -0.331 3.031
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 CB -0.331 3.031
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 NH1 -0.331 3.656
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 HD11 -0.331 2.331
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CD2 -0.332 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CD2 -0.332 3.732
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 93 OD1 -0.332 2.912
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 OE1 -0.332 3.512
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 41 HD11 -0.332 2.812
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 HB1 -0.332 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 62 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 27 OD2 -0.332 3.292
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 NE -0.332 3.037
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 119 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 NE2 -0.333 3.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.333 2.958
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 O -0.333 3.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 51 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 HH22 -0.333 3.033
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A THR 85 C -0.333 3.733
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 107 OE1 -0.333 3.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASN 259 O -0.333 2.413
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ILE 41 HG12 -0.333 3.033
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 CE1 -0.334 3.534
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 CB -0.334 3.514
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 76 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D MET 121 SD -0.334 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HE2 -0.335 2.435
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 66 O -0.335 2.415
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 92 HD23 -0.335 3.035
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 96 CB -0.335 3.735
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 CD -0.335 3.035
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NH1 -0.335 2.960
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 HE2 -0.335 2.815
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 CZ -0.335 3.660
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 75 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CD1 -0.335 3.735
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 NE2 -0.336 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CD2 -0.336 3.036
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 NH1 -0.336 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 CD1 -0.336 3.516
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B GLU 413 OE1 -0.337 2.817
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 120 OE1 -0.337 2.417
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 HE -0.337 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 53 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 HD2 -0.337 3.037
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 NE -0.337 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 HZ -0.337 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASN 78 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 38 OD1 -0.337 2.417
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CG -0.338 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 262 HE2 -0.338 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HE1 -0.338 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 96 HD13 -0.338 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE1 -0.338 2.818
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A MET 62 HE1 -0.338 2.338
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 96 HB3 -0.338 2.838
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 CD -0.338 3.038
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 CB -0.339 3.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLN 46 NE2 -0.339 3.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 NH2 -0.339 3.664
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 HD2 -0.339 2.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 87 HG -0.339 3.039
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE1 -0.339 2.919
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 53 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 HD2 -0.339 3.039
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HG2 -0.339 3.039
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 HD2 -0.339 2.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 121 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CE -0.339 3.519
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.340 3.122
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 85 O -0.340 3.520
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LEU 92 CD2 -0.340 3.040
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CD1 -0.340 3.740
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ILE 75 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 HH21 -0.340 3.040
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 CZ -0.340 3.740
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 O -0.340 3.045
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 CA -0.340 3.040
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 118 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 NE2 -0.340 2.965
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 HD2 -0.340 2.340
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 56 HB2 -0.340 2.340
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 89 CD -0.340 3.740
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 56 HB2 -0.341 2.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH1 -0.341 3.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.341 3.041
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 HB2 -0.341 2.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 CE2 -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 HB1 -0.341 3.041
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CE -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 89 CD -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG1 -0.342 3.742
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 77 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 87 HD21 -0.342 2.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CE2 -0.342 3.042
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CG -0.342 3.667
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 HB3 -0.342 2.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 73 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CE2 -0.342 3.042
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 HH11 -0.342 2.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HZ -0.342 2.342
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 -0.343 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 49 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 CB -0.343 3.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 CE -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A PHE 53 CG -0.343 3.543
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 CE -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ILE 41 CD1 -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CD2 -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 OD1 -0.343 2.423
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 HG2 -0.343 2.343
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ILE 420 CD1 -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 77 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 39 OE1 -0.343 2.823
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH2 -0.343 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A PHE 53 CB -0.344 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD2 -0.344 3.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 HZ -0.344 2.344
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 HB3 -0.344 2.344
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 HD11 -0.344 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 69 CG -0.344 3.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 84 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ASP 409 OD2 -0.344 3.049
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 73 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HE1 -0.344 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CE1 -0.344 3.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 128 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 66 O -0.345 2.825
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 78 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 38 OD1 -0.345 3.305
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 59 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 50 CG -0.345 3.045
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CG -0.345 3.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 14 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 OE2 -0.345 3.050
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 CD1 -0.346 3.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 19 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 419 SD -0.346 3.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 62 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 265 HH22 -0.346 2.346
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 81 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HE2 -0.347 3.047
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 CZ -0.347 3.047
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 O -0.347 2.427
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 89 CD -0.347 3.747
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 HB2 -0.348 2.348
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 NH1 -0.348 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 31 HA -0.348 2.348
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 212 H -0.348 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 26 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLU 248 OE1 -0.348 3.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 HG2 -0.348 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 260 OD2 -0.348 3.528
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 408 CG2 -0.348 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 40 HG22 -0.348 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 107 CD -0.349 3.749
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 68 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 HG23 -0.349 3.049
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C VAL 59 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 50 HG3 -0.349 2.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 40 CA -0.349 3.529
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 56 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ASP 27 OD2 -0.349 2.429
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 19 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 265 HD3 -0.349 2.349
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 69 CD1 -0.349 3.749
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A PHE 53 HB2 -0.349 3.049
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CE2 -0.350 3.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 20 HA3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH22 -0.350 2.350
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 23 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 20 HE22 -0.350 2.975
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 CA -0.350 3.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 39 O -0.350 3.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 CG1 -0.350 3.750
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.351 2.976
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 131 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 65 O -0.351 3.531
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ILE 75 HD11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CZ -0.351 3.051
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CZ -0.351 3.751
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 120 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A MET 62 HE1 -0.352 2.977
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 86 C -0.352 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLN 268 CG -0.352 3.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 HE2 -0.352 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 OE2 -0.352 2.432
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ALA 56 CB -0.352 3.532
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CE1 -0.352 3.677
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 69 CG -0.352 3.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 73 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 263 HZ -0.352 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 HB3 -0.352 2.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 103 CZ -0.352 3.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 -0.352 3.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 86 C -0.352 3.052
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 CE -0.352 3.752
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A TYR 103 OH -0.352 3.552
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 CE1 -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CG -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 51 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 HE2 -0.353 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 HH21 -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CG -0.353 3.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ASP 302 HB2 -0.353 2.978
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 HZ -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CB -0.354 3.754
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 HE1 -0.354 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 CD -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 HD1 -0.354 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 HD11 -0.354 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 CD -0.354 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 59 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH1 -0.354 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 CG1 -0.355 3.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 CB -0.355 3.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 64 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 49 NH1 -0.355 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 ND1 -0.355 3.695
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 103 CZ -0.355 3.055
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 HH21 -0.355 2.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 14 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 24 CZ -0.356 3.056
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 CG -0.356 3.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 89 HE3 -0.356 3.056
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D GLY 249 CA -0.356 3.756
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 20 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 -0.356 3.681
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 CA -0.356 3.756
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB1 -0.356 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 HB2 -0.356 2.356
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 HE1 -0.356 2.981
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 84 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ASP 409 CG -0.356 3.681
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 52 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 24 HG12 -0.357 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HE3 -0.357 2.982
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 56 HB2 -0.357 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C THR 119 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 NE2 -0.357 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CZ -0.357 3.057
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PRO 109 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 103 CE2 -0.357 3.757
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 OE1 -0.357 3.537
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLY 20 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 272 OE2 -0.357 3.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 97 HE1 -0.357 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 116 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 410 HB3 -0.357 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 49 NH1 -0.357 3.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 HG2 -0.358 2.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 HE1 -0.358 3.058
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 80 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD1 -0.358 3.058
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 HB3 -0.358 2.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 NH1 -0.358 2.983
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CE -0.359 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 117 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 CG -0.359 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 84 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D HIS 267 CE1 -0.359 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 50 CA -0.359 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 CE -0.359 3.759
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 75 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D PHE 262 CD1 -0.359 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CD -0.359 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HD2 -0.360 3.060
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 22 HB3 -0.360 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 68 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 CG2 -0.360 3.060
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 CB -0.360 3.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 103 CZ -0.360 3.060
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 77 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 38 O -0.360 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 HB3 -0.360 2.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 CB -0.360 3.060
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 216 NH1 -0.360 3.685
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 62 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 41 CG1 -0.360 3.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 302 OD1 -0.360 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.360 3.685
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 57 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A THR 75 HG1 -0.360 2.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 C -0.360 3.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 CE2 -0.361 3.686
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 60 CZ -0.361 3.061
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG23 -0.361 2.361
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 CZ -0.361 3.761
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 HE1 -0.361 2.361
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 HB2 -0.362 2.362
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 CG -0.362 3.562
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 53 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A TYR 25 CD2 -0.362 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 100 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 60 NH1 -0.362 3.612
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 54 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 26 CA -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 CD -0.362 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ASN 115 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 212 H -0.362 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ASP 93 OD1 -0.362 3.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CD1 -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LEU 18 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 124 CB -0.362 3.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 OE2 -0.362 3.542
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 56 CB -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 49 CZ -0.362 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 116 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 302 OD1 -0.362 2.442
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 424 CA -0.363 3.063
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLY 22 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 122 CD -0.363 3.763
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HD2 -0.363 3.063
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 CB -0.363 3.763
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.363 2.363
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.364 3.689
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ALA 56 CB -0.364 3.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HA -0.364 3.064
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CZ -0.364 3.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 HE2 -0.364 2.364
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 CG -0.365 3.565
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 CD -0.365 3.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 HE2 -0.365 2.990
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 HG13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB3 -0.365 2.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 51 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 CZ -0.365 3.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH22 -0.365 2.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 CG1 -0.365 3.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CB -0.365 3.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 61 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 HD11 -0.365 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 103 CE2 -0.365 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 CD -0.365 3.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 ND1 -0.366 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 C -0.366 3.066
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PRO 109 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A TYR 103 CZ -0.366 3.066
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A PHE 53 CG -0.366 3.566
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 HA -0.366 3.066
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 CB -0.366 3.766
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A VAL 40 HG13 -0.366 2.846
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 HG2 -0.366 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 OE2 -0.366 2.446
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 HH12 -0.366 2.366
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 CG -0.366 3.066
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CA -0.366 3.566
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 HH21 -0.366 2.446
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 HD2 -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 HB2 -0.367 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 107 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 56 HB2 -0.367 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 49 NH1 -0.367 3.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 100 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 60 HH12 -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HZ -0.367 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 64 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CZ -0.368 3.568
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ILE 41 CD1 -0.368 3.068
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 61 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 39 O -0.368 2.848
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ASN 259 HB3 -0.368 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ASN 78 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 38 CG -0.368 3.068
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 CE2 -0.368 3.068
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLN 46 HE22 -0.368 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 HE3 -0.368 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 66 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 OE1 -0.369 2.849
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 HB2 -0.369 2.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLN 46 HE22 -0.369 3.069
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 CZ -0.369 3.769
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 HG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ASP 93 OD1 -0.369 2.449
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH12 -0.369 3.069
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 HA -0.370 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C TYR 125 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 C -0.370 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 66 O -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B GLU 413 OE1 -0.370 3.075
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 HD2 -0.370 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE -0.370 3.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 HH11 -0.370 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A HIS 100 HD1 -0.370 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 19 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 264 H -0.370 2.995
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 104 OD2 -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 54 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 119 O -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CE -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ALA 86 CB -0.370 3.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 HD23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 HG23 -0.370 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PRO 109 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LEU 55 CD1 -0.370 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 89 HZ3 -0.370 2.450
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 18 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 HB3 -0.370 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 31 HA -0.371 2.996
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 262 HB3 -0.371 2.996
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLN 46 NE2 -0.371 3.696
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 50 CA -0.371 3.571
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 NZ -0.371 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C LEU 65 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 HH21 -0.372 2.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D GLN 270 NE2 -0.372 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 81 O -0.372 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 CG2 -0.372 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 CZ -0.372 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ARG 265 HD3 -0.372 2.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ASP 423 CB -0.372 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 HB3 -0.372 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LEU 96 CD1 -0.373 3.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 28 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ASP 31 HA -0.373 3.073
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 116 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B MET 353 CE -0.373 3.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 263 HE2 -0.373 3.073
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 HG -0.373 2.998
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ARG 60 HH22 -0.373 2.373
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TRP 124 NE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 66 O -0.373 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 SD -0.373 3.855
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LYS 14 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ARG 24 CZ -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 89 CE -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 116 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B MET 353 O -0.374 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 HB2 -0.374 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LEU 69 CG -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 39 CA -0.374 3.074
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 64 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ARG 49 CZ -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 61 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ASP 33 HA -0.374 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 HE22 -0.374 2.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CD -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CE2 -0.374 3.074
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C HIS 113 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B TYR 407 OH -0.375 3.100
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 110 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A LYS 59 NZ -0.375 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 CB -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 -0.375 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 CD2 -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 28 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E SER 35 CB -0.376 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 24 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASP 252 CB -0.376 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 107 CD -0.376 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 CZ -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLN 46 CD -0.376 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 24 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 24 NH1 -0.376 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 41 CG1 -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 CZ -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 CA -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CB -0.376 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 66 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 CD -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C LYS 28 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 38 OE1 -0.377 2.857
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH2 -0.377 3.702
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LYS 89 CD -0.377 3.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 54 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D PRO 119 HD2 -0.378 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TRP 124 NE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 66 O -0.378 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 CZ -0.378 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 CB -0.378 3.778
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PRO 109 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 55 HD13 -0.378 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 87 CG -0.379 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 76 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A TYR 25 CD2 -0.379 3.779
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LEU 18 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B PHE 416 HE1 -0.379 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 64 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 HD2 -0.379 2.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 119 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 96 CB -0.379 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 107 CD -0.379 3.079
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A MET 62 SD -0.379 3.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 54 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 26 CB -0.380 3.780
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 HH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 N -0.380 3.005
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C SER 117 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CE1 -0.380 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 N -0.381 3.006
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B PHE 416 CE1 -0.381 3.081
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ILE 50 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A SER 22 HB2 -0.381 2.861
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 56 CB -0.381 3.781
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 125 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LYS 89 CD -0.381 3.781
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 NE2 -0.381 3.121
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 116 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 104 OD2 -0.381 2.861
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 HE2 -0.381 3.081
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HG2 -0.381 2.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ALA 56 HB1 -0.381 2.861
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 CZ -0.381 3.081
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 127 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 65 CG -0.382 3.082
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 CG -0.382 3.562
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 19 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D PHE 266 CD2 -0.382 3.082
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 16 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG2 -0.382 3.082
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 HG12 -0.382 3.082
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B MET 419 SD -0.382 2.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A MET 62 CG -0.382 3.782
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 NE2 -0.382 3.707
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ARG 265 CG -0.382 3.782
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ALA 86 HA -0.383 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A VAL 40 HA -0.383 2.863
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 HB3 -0.383 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 69 HD11 -0.383 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 16 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 420 HG23 -0.383 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B SER 424 CA -0.383 3.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 56 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ASP 27 OD2 -0.383 3.088
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 100 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 60 HH22 -0.383 2.383
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE1 -0.383 3.783
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 HE22 -0.384 2.384
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 40 HG13 -0.384 2.384
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 69 CG -0.384 3.784
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CG -0.384 3.084
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 66 O -0.384 2.464
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 CD2 -0.384 3.084
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 121 NE2 -0.384 3.634
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CE1 -0.384 3.084
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ALA 86 CB -0.385 3.785
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A GLU 52 HG2 -0.385 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 117 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A HIS 100 CG -0.385 3.785
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CE1 -0.385 3.085
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLN 46 HE22 -0.385 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CD -0.385 3.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 OH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ARG 49 C -0.385 3.585
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 68 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ILE 258 HG23 -0.385 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ALA 86 HB1 -0.385 3.085
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B SER 410 HG -0.385 2.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D GLU 251 HB2 -0.385 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C THR 119 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A MET 62 SD -0.386 3.168
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB2 -0.386 2.866
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LYS 89 CD -0.386 3.786
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PHE 266 CD1 -0.386 3.786
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A ILE 73 O -0.386 2.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A LEU 69 CG -0.386 3.786
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 119 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A HIS 100 NE2 -0.386 3.711
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 64 OE2 -0.386 2.466
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLU 52 CB -0.387 3.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 116 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B MET 353 HE3 -0.387 2.387
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TRP 124 CZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LEU 69 CG -0.387 3.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 73 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ILE 258 CD1 -0.387 3.087
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 117 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 100 CD2 -0.387 3.087
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E LEU 87 HD11 -0.387 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 NE2 -0.387 3.012
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 HE3 -0.388 2.388
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CE -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LEU 92 CD2 -0.388 3.088
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LYS 111 HZ1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D ASN 259 O -0.388 2.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ARG 61 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ILE 41 CD1 -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 125 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 CD -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ARG 100 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 60 CD -0.389 3.089
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B ASP 302 CG -0.389 3.089
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A LEU 92 HD22 -0.389 3.089
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A HIS 121 CD2 -0.389 3.714
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ARG 19 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CD2 -0.389 3.089
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A MET 62 CE -0.389 3.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 -0.389 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB2 -0.389 2.389
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A MET 62 CE -0.389 3.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C GLU 107 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 52 HG2 -0.389 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 104 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ARG 49 HH21 -0.389 2.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 61 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 CD1 -0.390 3.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 ND1 -0.390 3.030
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LYS 111 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLU 107 CD -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 64 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 49 NH1 -0.390 3.715
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 OD1 -0.390 3.095
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C SER 106 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A GLU 52 HB3 -0.390 2.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 56 HB1 -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C TYR 62 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A ILE 41 CG1 -0.391 3.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A GLN 46 CD -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 77 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LEU 36 CD2 -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 111 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 107 OE1 -0.391 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASN 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C TYR 104 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A PHE 53 CG -0.391 3.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 HE1 -0.391 2.391
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A PHE 53 CG -0.391 3.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH22 -0.392 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C LEU 18 HD23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ILE 420 CG2 -0.392 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 116 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ASP 104 OD1 -0.392 2.472
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 52 CB -0.392 3.792
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LYS 66 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 263 HE2 -0.392 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TYR 104 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A PHE 53 HB2 -0.392 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C GLU 107 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A GLU 52 CB -0.393 3.093
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 128 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 66 O -0.393 3.573
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ARG 24 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D ASP 252 CG -0.393 3.718
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C THR 121 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A MET 62 CE -0.393 3.793
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 60 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A GLN 46 NE2 -0.393 3.018
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C LEU 18 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D PHE 263 HZ -0.393 3.093
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 78 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLU 39 OE1 -0.394 2.474
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 68 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D ILE 258 CG2 -0.394 3.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 54 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A SER 26 CB -0.394 3.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ASN 115 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 353 CE -0.394 3.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E SER 35 CB -0.394 3.719
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 60 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A VAL 40 CG1 -0.394 3.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLU 52 HG2 -0.394 2.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CE1 -0.394 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 81 O -0.394 3.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ASP 104 CG -0.395 3.095
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 117 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A HIS 100 CE1 -0.395 3.095
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TRP 124 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A LEU 92 HD23 -0.395 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 88 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E SER 35 HB2 -0.395 2.395
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 116 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A HIS 100 CE1 -0.395 3.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A LYS 89 NZ -0.395 3.100
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 73 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ILE 258 CD1 -0.395 3.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TYR 125 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ALA 86 HB1 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 125 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A LYS 89 CD -0.396 3.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C ALA 80 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B PHE 416 CE2 -0.396 3.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C HIS 113 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D TYR 213 CD1 -0.396 3.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C LEU 18 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D PHE 266 CD2 -0.396 3.796
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C VAL 128 CG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ALA 86 HB2 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C VAL 59 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A LYS 50 CG -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TRP 124 CH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A THR 85 O -0.396 3.576
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PRO 109 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 HG2 -0.396 2.396
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C LEU 18 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D PHE 266 CD2 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C VAL 59 HG11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A LYS 50 HG3 -0.396 2.396
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C TYR 62 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ILE 41 HG12 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 24 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ASP 31 OD1 -0.396 2.476
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 119 OG1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A HIS 100 NE2 -0.396 3.121
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A MET 62 HA -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C TRP 124 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A MET 62 HG2 -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASP 122 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 89 HE3 -0.397 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 60 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A GLN 46 OE1 -0.397 3.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 HB3 -0.397 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C THR 52 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D ARG 122 CD -0.397 3.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 107 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 52 HB3 -0.397 3.022
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 121 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A MET 62 CE -0.397 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 120 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A LYS 59 CE -0.398 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C HIS 113 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D TYR 213 OH -0.398 3.598
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ARG 19 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B MET 419 CG -0.399 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ARG 61 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A ILE 41 CD1 -0.399 3.579
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C LYS 28 NZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLU 38 HB2 -0.399 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C LEU 65 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A ARG 49 NH2 -0.399 3.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 -0.399 2.399
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C VAL 59 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 49 NH1 -0.399 3.104
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C GLU 107 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A ALA 56 HB2 -0.399 3.099
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 CD -0.399 3.799
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 52 CB -0.399 3.799
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C TYR 104 HH fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A PHE 53 HB3 -0.399 2.399
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C SER 118 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A HIS 100 CE1 -0.399 3.799
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C SER 60 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A GLN 46 NE2 -0.399 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C LYS 68 HZ3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B GLU 413 HB2 -0.400 2.400
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 16 HZ2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 255 OE1 -0.400 2.480
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C VAL 110 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A LYS 59 NZ -0.400 3.725
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 106 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A GLU 52 CB -0.400 3.800
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ARG 19 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 64 CD -0.400 3.725
2522 contacts
> sequence align /A
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: DPLSQ3CH4XNVB4F9
Webservices job finished: DPLSQ3CH4XNVB4F9
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> select #1/C:122
12 atoms, 11 bonds, 1 residue, 1 model selected
> select #1/C:122-131 #2/C:122-131 #3/C:122-131 #4/C:122-131 #5/C:122-131
> #7/C:122-131 #8/C:122-131 #9/C:122-131 #10/C:122-131 #11/C:122-131
1750 atoms, 1770 bonds, 100 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [122-131] RMSD: 0.653
> coulombic sel
Using Amber 20 recommended default charges and atom types for standard
residues
[Repeated 9 time(s)]Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif_C SES surface #1.4:
minimum, -15.35, mean 1.15, maximum 37.13
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif_C SES surface #2.2:
minimum, -13.02, mean 1.19, maximum 45.37
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif_C SES surface #3.2:
minimum, -13.55, mean 1.30, maximum 20.53
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif_C SES surface #4.2:
minimum, -14.83, mean 0.89, maximum 21.54
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif_C SES surface #5.2:
minimum, -14.35, mean 1.45, maximum 23.96
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif_C SES surface #7.2:
minimum, -14.88, mean 1.37, maximum 25.61
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif_C SES surface #8.2:
minimum, -14.13, mean 1.04, maximum 20.13
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif_C SES surface #9.2:
minimum, -23.60, mean 0.69, maximum 21.25
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif_C SES surface
#10.2: minimum, -14.19, mean 1.35, maximum 23.85
Coulombic values for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif_C SES surface
#11.2: minimum, -16.44, mean 1.21, maximum 24.35
To also show corresponding color key, enter the above coulombic command and
add key true
> transparency sel 60 surfaces
> transparency sel 70 surfaces
> view
> view sel
> select clear
> select /C:131
240 atoms, 230 bonds, 10 residues, 10 models selected
> show sel atoms
> style sel ball
Changed 240 atom styles
> select /C:130
220 atoms, 210 bonds, 10 residues, 10 models selected
> show sel atoms
> style sel ball
Changed 220 atom styles
> select clear
> style ball
Changed 335513 atom styles
> select #11/C:124@NE1
1 atom, 1 residue, 1 model selected
> select clear
> select /C:124
240 atoms, 250 bonds, 10 residues, 10 models selected
> show sel atoms
> select clear
> select /C:128
160 atoms, 150 bonds, 10 residues, 10 models selected
> show sel atoms
> select #1/C:16
22 atoms, 21 bonds, 1 residue, 1 model selected
> select #1/C:16 #2/C:16 #3/C:16 #4/C:16 #5/C:16 #7/C:16 #8/C:16 #9/C:16
> #10/C:16 #11/C:16
220 atoms, 210 bonds, 10 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [16] RMSD: 1.497
> select clear
> view
> select #1/C:16
22 atoms, 21 bonds, 1 residue, 1 model selected
> select #1/C:16 #2/C:16 #3/C:16 #4/C:16 #5/C:16 #7/C:16 #8/C:16 #9/C:16
> #10/C:16 #11/C:16
220 atoms, 210 bonds, 10 residues, 10 models selected
Clustal Omega Alignment [ID: 1] region chain C..chain C [16] RMSD: 1.497
> show sel atoms
> contacts sel interModel false intraMol false select true reveal true
67 contacts
> select up
356 atoms, 337 bonds, 21 residues, 16 models selected
> sequence chain #2/C#4/C#5/C#7/C#8/C#9/C#10/C#11/C
Alignment identifier is 3
> sequence chain #2/D#7/D#9/D#10/D#11/D
Alignment identifier is 4
> sequence chain #4/B#5/B#8/B
Alignment identifier is 5
> select up
3260 atoms, 3278 bonds, 203 residues, 16 models selected
> select down
356 atoms, 337 bonds, 21 residues, 16 models selected
> select clear
QCoreTextFontDatabase: Found no matching fonts for family ""
> save /Users/pcarlton/Desktop/dsb123-splitDNA-DVWYNbox.cxs
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35232
Chain information for fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif
#12
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> hide atoms
> select #12
35107 atoms, 35724 bonds, 15 pseudobonds, 2089 residues, 2 models selected
> show sel cartoons
Computing secondary structure
> mmaker #12/A to #1/A showAlign true
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif, chain A
(#12), sequence alignment score = 2029.6
Alignment identifier is 6
Showing conservation header ("seq_conservation" residue attribute) for
alignment 6
Hiding conservation header for alignment 6
Chains used in RMSD evaluation for alignment 6:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 6
RMSD between 331 pruned atom pairs is 0.467 angstroms; (across all 425 pairs:
37.289)
> select #12/C,D
11923 atoms, 12067 bonds, 770 residues, 1 model selected
> color sel orange
> select #10/D
4408 atoms, 4452 bonds, 280 residues, 1 model selected
> show sel cartoons
> hide sel cartoons
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 77
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35245
Chain information for fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif
#13
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 78
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35254
Chain information for fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif
#14
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35235
Chain information for fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif
#15
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35231
Chain information for fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif
#16
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35227
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35225
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35226
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35230
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb113full/fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35231
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> hide sel atoms
[Repeated 1 time(s)]
> select clear
> hide atoms
> select clear
> color bychain
> mmaker #21,20,19,18,17,16,15,14,13/A to #1/A showAlign true
Computing secondary structure
[Repeated 8 time(s)] Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif, chain A
(#21), sequence alignment score = 2015.8
Alignment identifier is 6
Showing conservation header ("seq_conservation" residue attribute) for
alignment 6
Hiding conservation header for alignment 6
Chains used in RMSD evaluation for alignment 6:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 6
RMSD between 331 pruned atom pairs is 0.531 angstroms; (across all 425 pairs:
33.752)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif, chain A
(#20), sequence alignment score = 2041.6
Alignment identifier is 7
Showing conservation header ("seq_conservation" residue attribute) for
alignment 7
Hiding conservation header for alignment 7
Chains used in RMSD evaluation for alignment 7:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 7
RMSD between 330 pruned atom pairs is 0.437 angstroms; (across all 425 pairs:
27.187)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif, chain A
(#19), sequence alignment score = 2029.6
Alignment identifier is 8
Showing conservation header ("seq_conservation" residue attribute) for
alignment 8
Hiding conservation header for alignment 8
Chains used in RMSD evaluation for alignment 8:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 8
RMSD between 332 pruned atom pairs is 0.456 angstroms; (across all 425 pairs:
30.927)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif, chain A
(#18), sequence alignment score = 2072.8
Alignment identifier is 9
Showing conservation header ("seq_conservation" residue attribute) for
alignment 9
Hiding conservation header for alignment 9
Chains used in RMSD evaluation for alignment 9:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 9
RMSD between 332 pruned atom pairs is 0.489 angstroms; (across all 425 pairs:
32.863)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif, chain A
(#17), sequence alignment score = 2014.6
Alignment identifier is 10
Showing conservation header ("seq_conservation" residue attribute) for
alignment 10
Hiding conservation header for alignment 10
Chains used in RMSD evaluation for alignment 10:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 10
RMSD between 328 pruned atom pairs is 0.457 angstroms; (across all 425 pairs:
31.422)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16), sequence alignment score = 2090.2
Alignment identifier is 11
Showing conservation header ("seq_conservation" residue attribute) for
alignment 11
Hiding conservation header for alignment 11
Chains used in RMSD evaluation for alignment 11:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 11
RMSD between 329 pruned atom pairs is 0.466 angstroms; (across all 425 pairs:
29.243)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif, chain A
(#15), sequence alignment score = 2054.2
Alignment identifier is 12
Showing conservation header ("seq_conservation" residue attribute) for
alignment 12
Hiding conservation header for alignment 12
Chains used in RMSD evaluation for alignment 12:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 12
RMSD between 308 pruned atom pairs is 0.488 angstroms; (across all 425 pairs:
38.893)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif, chain A
(#14), sequence alignment score = 2024.8
Alignment identifier is 13
Showing conservation header ("seq_conservation" residue attribute) for
alignment 13
Hiding conservation header for alignment 13
Chains used in RMSD evaluation for alignment 13:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 13
RMSD between 330 pruned atom pairs is 0.459 angstroms; (across all 425 pairs:
28.936)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif, chain A
(#13), sequence alignment score = 2047.6
Alignment identifier is 14
Showing conservation header ("seq_conservation" residue attribute) for
alignment 14
Hiding conservation header for alignment 14
Chains used in RMSD evaluation for alignment 14:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 14
RMSD between 331 pruned atom pairs is 0.546 angstroms; (across all 425 pairs:
37.997)
> select clear
> select #12
35107 atoms, 35724 bonds, 15 pseudobonds, 2089 residues, 2 models selected
> hide sel cartoons
> select clear
Drag select of fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif_C SES
surface, 19877 of 683010 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif_C SES surface, 20579
of 682418 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif_C SES surface, 20341
of 687384 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif_C SES surface, 19602
of 682582 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif_C SES surface, 20419
of 678982 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif_C SES surface,
20463 of 681944 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif_C SES surface,
20474 of 673598 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif_C SES surface,
19946 of 687226 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif_C SES surface,
20949 of 677876 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif_C SES surface,
20640 of 685898 triangles, 9356 residues, 14 pseudobonds
> select intersect /B,C
57955 atoms, 8 pseudobonds, 3540 residues, 11 models selected
> sequence chain #1/B#2/B#3/B#4/B#5/B#7/B#8/B#9/B#10/B#11/B
Alignment identifier is 5
> select up
63937 atoms, 64557 bonds, 8 pseudobonds, 3947 residues, 11 models selected
> select down
57955 atoms, 8 pseudobonds, 3540 residues, 11 models selected
> select up
63937 atoms, 64557 bonds, 8 pseudobonds, 3947 residues, 11 models selected
> select down
57955 atoms, 8 pseudobonds, 3540 residues, 11 models selected
Drag select of fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif_C SES
surface, 19877 of 683010 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif_C SES surface, 20579
of 682418 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif_C SES surface, 20341
of 687384 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif_C SES surface, 19602
of 682582 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif_C SES surface, 20419
of 678982 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif_C SES surface,
20463 of 681944 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif_C SES surface,
20474 of 673598 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif_C SES surface,
19946 of 687226 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif_C SES surface,
20949 of 677876 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif_C SES surface,
20640 of 685898 triangles, 9500 residues, 14 pseudobonds
> select intersect /C
Nothing selected
Drag select of fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif_C SES
surface, 19877 of 683010 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif_C SES surface, 20579
of 682418 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif_C SES surface, 20341
of 687384 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif_C SES surface, 19602
of 682582 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif_C SES surface, 20419
of 678982 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif_C SES surface,
20463 of 681944 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif_C SES surface,
20474 of 673598 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif_C SES surface,
19946 of 687226 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif_C SES surface,
20949 of 677876 triangles,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif_C SES surface,
20640 of 685898 triangles, 2839 residues
> select /C:1-4
1360 atoms, 1380 bonds, 80 residues, 20 models selected
> hide sel cartoons
> select clear
> select /C:5-140
44356 atoms, 44736 bonds, 2720 residues, 20 models selected
> show sel cartoons
> select clear
> select /D
103683 atoms, 104843 bonds, 6650 residues, 20 models selected
> show sel cartoons
> select clear
Drag select of 913 residues
> select intersect /D
8113 atoms, 489 residues, 10 models selected
> sequence chain #2/D#3/D#4/D#5/D#8/D
Alignment identifier is 3
> sequence chain #12/D#13/D#14/D#15/D#16/D
Alignment identifier is 6
> select up
13716 atoms, 13830 bonds, 856 residues, 10 models selected
> select down
8113 atoms, 489 residues, 10 models selected
> select #2,3,4,5,8/D
22038 atoms, 22258 bonds, 1400 residues, 5 models selected
> select #1,7,9,10,11/D
22036 atoms, 22256 bonds, 1400 residues, 5 models selected
> color sel purple
> show sel cartoons
> transparency /D 0
> transparency /D 0 ribbons
> select /D
103683 atoms, 104843 bonds, 6650 residues, 20 models selected
> select #1,2,3,4,5,7,8,9,10,11/D
44074 atoms, 44514 bonds, 2800 residues, 10 models selected
> color sel purple
> select #1,2,3,4,5,7,8,9,10,11/D:107-290
26899 atoms, 27179 bonds, 1740 residues, 10 models selected
> hide sel cartoons
> select clear
> select #8/D:37
10 atoms, 9 bonds, 1 residue, 1 model selected
> select add #9/D:93
34 atoms, 32 bonds, 2 residues, 2 models selected
> select add #5/D:28
53 atoms, 50 bonds, 3 residues, 3 models selected
> select add #11/D:36
73 atoms, 70 bonds, 4 residues, 4 models selected
> select add #10/D:44
80 atoms, 76 bonds, 5 residues, 5 models selected
> select up
579 atoms, 577 bonds, 35 residues, 5 models selected
> select up
22036 atoms, 22256 bonds, 1400 residues, 5 models selected
> hide sel cartoons
> select #7/D:26
11 atoms, 10 bonds, 1 residue, 1 model selected
> select up
96 atoms, 95 bonds, 6 residues, 1 model selected
> select up
4408 atoms, 4452 bonds, 280 residues, 1 model selected
> hide sel cartoons
Drag select of 24 residues
> select clear
> select #4/D:88
24 atoms, 23 bonds, 1 residue, 1 model selected
> select up
241 atoms, 242 bonds, 14 residues, 1 model selected
> select up
4408 atoms, 4452 bonds, 280 residues, 1 model selected
> select add #3/D:4
4432 atoms, 4475 bonds, 281 residues, 2 models selected
> select up
4480 atoms, 4523 bonds, 284 residues, 2 models selected
> select up
8815 atoms, 8903 bonds, 560 residues, 2 models selected
> select clear
> select #1,2,3,4/D:1-106
6870 atoms, 6930 bonds, 424 residues, 4 models selected
> hide sel cartoons
> undo
> select /C,D:141-385
131865 atoms, 133566 bonds, 8750 residues, 20 models selected
> hide sel cartoons
> select clear
> select /C
119211 atoms, 120651 bonds, 7700 residues, 20 models selected
> select /D
103683 atoms, 104843 bonds, 6650 residues, 20 models selected
> select clear
> hide surfaces
> select clear
Drag select of 186 residues
> select clear
[Repeated 1 time(s)]
> select #12,13,14,5,16,17,18,19,20,21/D
58054 atoms, 58746 bonds, 3745 residues, 10 models selected
> color sel forest green
> select #12,13,14,5,16,17,18,19,20,21/C
59600 atoms, 60320 bonds, 3850 residues, 10 models selected
> color (#!5,12-14,16-21 & sel) cyan
> select #1,2,3,4,5,7,8,9,10,11/C
59610 atoms, 60330 bonds, 3850 residues, 10 models selected
> color (#!1-5,7-11 & sel) lime
> select #12,13,14,15,16,17,18,19,20,21/D
59609 atoms, 60329 bonds, 3850 residues, 10 models selected
> color sel cyan
> select clear
> select #12,13,14,15,16,17,18,19,20,21/C
59601 atoms, 60321 bonds, 3850 residues, 10 models selected
> color sel cyan
> select #12,13,14,15,16,17,18,19,20,21/C,D
119210 atoms, 120651 bonds, 7700 residues, 10 models selected
> color sel cyan
> select #1,2,3,4,5,7,8,9,10,11/C
59610 atoms, 60330 bonds, 3850 residues, 10 models selected
> color (#!1-5,7-11 & sel) forest green
> color (#!1-5,7-11 & sel) lime
> select clear
> select #1,2,3,4,5,7,8,9,10,11/E
56693 atoms, 57173 bonds, 3450 residues, 10 models selected
> show sel cartoons
> select #12,13,14,15,16,17,18,19,20,21/E
56695 atoms, 57175 bonds, 3450 residues, 10 models selected
> show sel cartoons
> color sel yellow
> select clear
Drag select of 401 residues
> select up
19293 atoms, 19515 bonds, 1155 residues, 15 models selected
> select up
85040 atoms, 85760 bonds, 5175 residues, 15 models selected
> sequence align sel
Alignment identifier is 6
Showing conservation header ("seq_conservation" residue attribute) for
alignment 6
Webservices job id: V6R43Z9S6G5R8X77
Webservices job finished: V6R43Z9S6G5R8X77
> sequence header 6 conservation hide
Hiding conservation header for alignment 6
> sequence header 6 rmsd show
Chains used in RMSD evaluation for alignment 6:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 6
> select /E:1-157
51589 atoms, 51869 bonds, 3140 residues, 20 models selected
> hide sel cartoons
Drag select of 193 residues
> select up
6927 atoms, 7013 bonds, 411 residues, 5 models selected
> select up
28348 atoms, 28588 bonds, 1725 residues, 5 models selected
> sequence align sel
Alignment identifier is 7
Showing conservation header ("seq_conservation" residue attribute) for
alignment 7
Webservices job id: W7XZQUY61GVHQLIL
Webservices job finished: W7XZQUY61GVHQLIL
> sequence header 7 rmsd show
Chains used in RMSD evaluation for alignment 7:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 7
> sequence header 7 conservation hide
Hiding conservation header for alignment 7
> select clear
Drag select of 16494 residues, 14 pseudobonds
> view sel
> cofr sel
> select clear
Drag select of 15 residues
> select up
9448 atoms, 10148 bonds, 300 residues, 10 models selected
Drag select of 24 residues
> select up
18988 atoms, 20368 bonds, 600 residues, 10 models selected
> color sel #3c0f79ff
> color sel #3d0f7aff
> color sel #4c1298ff
> color sel #5a16b5ff
[Repeated 1 time(s)]
> color sel #6117c3ff
> color sel #6518caff
> color sel #6518cbff
> color sel #6619cbff
> color sel #a98fcbff
[Repeated 1 time(s)]
> color sel #ac94cbff
> color sel #b19ecbff
> color sel #af9bcbff
> color sel #ac95cbff
> color sel #9b76cbff
> color sel #966ecbff
> color sel #8e5fcbff
> color sel #8957cbff
[Repeated 2 time(s)]
> color sel #8a58cbff
> color sel #b8a9cbff
> color sel #bbafcbff
> color sel #beb2ceff
> color sel #bfb3cfff
> color sel #d8caeaff
> color sel #ebdcffff
> color sel #eadbfeff
Drag select of 13 residues
> select up
19270 atoms, 20860 bonds, 600 residues, 10 models selected
> color sel #eadafeff
> color sel #913efeff
[Repeated 1 time(s)]
> color sel #a765feff
> color sel #ba86feff
> color sel #e9d9feff
[Repeated 1 time(s)]
> color sel #d8c9ebff
> color sel #d7c8eaff
> color sel #b6aac7ff
> color sel #978da5ff
> select clear
> save /Users/pcarlton/Desktop/dsb123113compare-dsb3too.cxs
Drag select of 130 residues
> select up
5930 atoms, 6000 bonds, 355 residues, 5 models selected
> sequence align /E
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: BIJWTU46SZJI6Y2G
Webservices job finished: BIJWTU46SZJI6Y2G
> select clear
Drag select of 156 residues
Drag select of 52 residues
> sequence chain #1/D#2/D#3/D#4/D
Alignment identifier is 2
> sequence align #12-21/E
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: L8GAYRGEI6XSS64S
Webservices job finished: L8GAYRGEI6XSS64S
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 consensus show
Showing consensus header ("seq_consensus" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> sequence header 2 consensus hide
Hiding consensus header for alignment 2
> select #5/J:1
33 atoms, 34 bonds, 1 residue, 1 model selected
> cofr sel
> select #5/J:30
32 atoms, 34 bonds, 1 residue, 1 model selected
> cofr sel
> select clear
> movie record
> turn y 2 180
> wait 180
> movie encode /Users/pcarlton/Desktop/movie11.mp4
Movie saved to /Users/pcarlton/Desktop/movie11.mp4
Drag select of 132 residues
> color sel blue
> mmaker #7/A to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain B
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif, chain A
(#7), sequence alignment score = 1977.4
RMSD between 328 pruned atom pairs is 0.499 angstroms; (across all 425 pairs:
15.128)
> mmaker #10/A to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain B
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif, chain A
(#10), sequence alignment score = 2024.8
RMSD between 323 pruned atom pairs is 0.379 angstroms; (across all 425 pairs:
31.724)
> mmaker #9/A to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain B
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif, chain A
(#9), sequence alignment score = 2005
RMSD between 329 pruned atom pairs is 0.478 angstroms; (across all 425 pairs:
38.160)
> mmaker #8/A to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain B
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif, chain A
(#8), sequence alignment score = 2013.4
RMSD between 328 pruned atom pairs is 0.509 angstroms; (across all 425 pairs:
22.576)
> mmaker #11/A to #1/B
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain B
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain A
(#11), sequence alignment score = 2050.6
RMSD between 330 pruned atom pairs is 0.639 angstroms; (across all 425 pairs:
35.679)
> select #1-11/D:1-105
16985 atoms, 17135 bonds, 1050 residues, 10 models selected
> select #1-11/D:1-106
17175 atoms, 17325 bonds, 1060 residues, 10 models selected
> show sel cartoons
> select clear
> select add #9/D:40
11 atoms, 10 bonds, 1 residue, 1 model selected
> select add #8/D:11
32 atoms, 31 bonds, 2 residues, 2 models selected
> select add #11/D:12
53 atoms, 52 bonds, 3 residues, 3 models selected
> select #8,9,11/D
13221 atoms, 13353 bonds, 840 residues, 3 models selected
> hide sel cartoons
> select clear
> select /E
113388 atoms, 114348 bonds, 6900 residues, 20 models selected
> color sel orange
> select clear
> save /Users/pcarlton/Desktop/dsb123113compare-dsb3too.cxs
> select /A,B
273678 atoms, 276278 bonds, 103 pseudobonds, 17000 residues, 21 models
selected
> color (#!1-5,7-21 & sel) #ff9797ff
[Repeated 1 time(s)]
> select clear
> select #5/D:27
19 atoms, 18 bonds, 1 residue, 1 model selected
> select #5,8,9,11/D
17628 atoms, 17804 bonds, 1120 residues, 4 models selected
> hide sel cartoons
> select clear
> sequence header 1 conservation hide
Hiding conservation header for alignment 1
> sequence header 1 rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> select #1/E:162-163 #2/E:162-163
78 atoms, 80 bonds, 4 residues, 2 models selected
> select #1/E:162-241 #2/E:162-241 #3/E:162-241 #4/E:162-241 #5/E:162-241
> #7/E:162-241 #8/E:162-241 #9/E:162-241 #10/E:162-241 #11/E:162-241
> #12/E:162-241 #13/E:162-241 #14/E:162-241 #15/E:162-241 #16/E:162-241
> #17/E:162-241 #18/E:162-241 #19/E:162-241 #20/E:162-241 #21/E:162-241
25240 atoms, 25460 bonds, 1600 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [162-241] RMSD: 1.313
> select clear
[Repeated 1 time(s)]
> select #1/E:162 #2/E:162
48 atoms, 50 bonds, 2 residues, 2 models selected
> select #1/E:162 #2/E:162 #3/E:162 #4/E:162 #5/E:162 #7/E:162 #8/E:162
> #9/E:162 #10/E:162 #11/E:162 #12/E:162 #13/E:162 #14/E:162 #15/E:162
> #16/E:162 #17/E:162 #18/E:162 #19/E:162 #20/E:162 #21/E:162
480 atoms, 500 bonds, 20 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [162] RMSD: 1.332
Drag select of 698 residues
> select clear
> select #1/E:342
24 atoms, 23 bonds, 1 residue, 1 model selected
> select #1/E:342-345 #2/E:342-345 #3/E:342-345 #4/E:342-345 #5/E:342-345
> #7/E:342-345 #8/E:342-345 #9/E:342-345 #10/E:342-345 #11/E:342-345
> #12/E:342-345 #13/E:342-345 #14/E:342-345 #15/E:342-345 #16/E:342-345
> #17/E:342-345 #18/E:342-345 #19/E:342-345 #20/E:342-345 #21/E:342-345
1419 atoms, 1419 bonds, 80 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [342-345] RMSD: 2.318
> select clear
> select /E:158-345
61799 atoms, 62459 bonds, 3760 residues, 20 models selected
> contacts sel interModel false intraMol false select true saveFile true
3309 contacts
> select /A,B:166,170,172,174,176,192,193,246
5640 atoms, 5360 bonds, 320 residues, 20 models selected
> color sel hot pink
> contacts sel interModel false intraMol false select true saveFile spoDSB3
2139 contacts
> sequence chain
> #1/A,B#2/A,B#3/A,B#4/A,B#5/A,B#7/A,B#8/A,B#9/A,B#10/A,B#11/A,B#12/A,B#13/A,B#14/A,B#15/A,B#16/A,B#17/A,B#18/A,B#19/A,B#20/A,B#21/A,B
Alignment identifier is 3
> sequence chain
> #1/E#2/E#3/E#4/E#5/E#7/E#8/E#9/E#10/E#11/E#12/E#13/E#14/E#15/E#16/E#17/E#18/E#19/E#20/E#21/E
Alignment identifier is 4
> sequence chain #8/C
Alignment identifier is 8/C
> sequence chain #8/D
Alignment identifier is 8/D
> select up
10967 atoms, 10507 bonds, 643 residues, 21 models selected
> select down
2289 atoms, 643 residues, 21 models selected
> select #1/E:267
24 atoms, 25 bonds, 1 residue, 1 model selected
> select #1/E:267-270 #2/E:267-270 #3/E:267-270 #4/E:267-270 #5/E:267-270
> #7/E:267-270 #8/E:267-270 #9/E:267-270 #10/E:267-270 #11/E:267-270
> #12/E:267-270 #13/E:267-270 #14/E:267-270 #15/E:267-270 #16/E:267-270
> #17/E:267-270 #18/E:267-270 #19/E:267-270 #20/E:267-270 #21/E:267-270
1480 atoms, 1500 bonds, 80 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [267-270] RMSD: 1.401
> contacts sel interModel false intraMol false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
32 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B TYR 386 CZ 0.019 3.381
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 CG2 0.010 3.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 CG2 -0.047 2.747
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 CB -0.047 3.447
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 CB -0.073 2.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 25 CB -0.085 3.485
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B TYR 386 CE2 -0.098 3.498
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 25 CB -0.102 2.802
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 HG21 -0.115 2.815
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B TYR 386 CE2 -0.126 2.826
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ILE 382 CD1 -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 HB3 -0.232 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 25 HB3 -0.249 2.949
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 382 CD1 -0.262 3.662
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B TYR 386 CZ -0.263 2.963
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 269 HE21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A GLU 380 OE1 -0.264 2.344
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 382 HG21 -0.265 2.265
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ILE 382 HD13 -0.286 2.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 382 HD13 -0.294 2.294
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 382 CD1 -0.303 3.003
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B TYR 386 CE1 -0.315 3.715
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 HB3 -0.322 2.322
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 268 HG12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ASP 27 OD2 -0.323 2.803
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A TYR 25 HB3 -0.329 2.329
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 268 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 382 HD13 -0.331 2.331
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B TYR 386 CD2 -0.332 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 HG23 -0.332 2.332
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 HG12 -0.344 2.344
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 268 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ILE 382 HD13 -0.377 3.077
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 HD13 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 HG21 -0.386 2.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ILE 268 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ILE 382 HG23 -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E ILE 268 HG21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A TYR 25 HB2 -0.398 2.398
32 contacts
> select clear
> select /E
113388 atoms, 114348 bonds, 6900 residues, 20 models selected
> select clear
> select #1/E:259
24 atoms, 25 bonds, 1 residue, 1 model selected
> select #1/E:259 #2/E:259 #3/E:259 #4/E:259 #5/E:259 #7/E:259 #8/E:259
> #9/E:259 #10/E:259 #11/E:259 #12/E:259 #13/E:259 #14/E:259 #15/E:259
> #16/E:259 #17/E:259 #18/E:259 #19/E:259 #20/E:259 #21/E:259
480 atoms, 500 bonds, 20 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [259] RMSD: 1.689
> show sel atoms
> hide sel atoms
> select #1/E:82 #2/E:82
48 atoms, 46 bonds, 2 residues, 2 models selected
> select #1/E:82-86 #2/E:82-86 #3/E:82-86 #4/E:82-86 #5/E:82-86 #7/E:82-86
> #8/E:82-86 #9/E:82-86 #10/E:82-86 #11/E:82-86 #12/E:82-86 #13/E:82-86
> #14/E:82-86 #15/E:82-86 #16/E:82-86 #17/E:82-86 #18/E:82-86 #19/E:82-86
> #20/E:82-86 #21/E:82-86
1734 atoms, 1714 bonds, 100 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [82-86] RMSD: 96.339
> show sel atoms
> style sel ball
Changed 1734 atom styles
> contacts sel interModel false intraMol false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
428 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CD2 0.276 3.049
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 N 0.265 2.985
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C THR 303 C 0.212 3.128
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 O 0.209 2.751
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 N 0.204 3.046
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 223 CZ 0.198 3.127
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 C fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B LEU 327 O 0.195 2.985
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 CG 0.191 3.134
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O 0.179 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 HD2 0.157 2.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 NH2 0.155 2.470
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 CD 0.140 2.560
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 304 C 0.131 3.209
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O 0.127 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 N 0.124 2.501
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 301 O 0.122 3.058
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 O 0.103 3.077
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 CG 0.097 3.228
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A PHE 282 HZ 0.091 2.534
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 331 CG 0.067 3.113
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 HB 0.062 2.578
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 CE2 0.057 3.425
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 308 CG1 0.051 3.431
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O 0.050 2.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD1 0.048 3.132
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D LEU 334 CD1 0.048 3.352
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 CD 0.047 3.435
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 C 0.046 3.279
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CE2 0.045 3.437
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 311 CB 0.042 3.358
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B GLN 326 OE1 0.042 3.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 223 HZ 0.040 2.585
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 HA3 0.034 2.446
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 CG2 0.031 3.369
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 325 CG1 0.029 3.453
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 H 0.021 1.979
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 301 O 0.017 2.463
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CD 0.017 3.308
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A TYR 269 CE1 0.015 3.467
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 CB 0.013 3.387
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 330 CD 0.011 3.314
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 304 N 0.006 3.259
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CD2 0.004 3.478
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 C 0.002 2.698
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 HG2 0.002 2.623
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ARG 311 O -0.006 2.486
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD2 -0.007 3.187
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 383 O -0.018 2.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 CD2 -0.022 3.202
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 N -0.024 2.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 384 HA -0.026 2.651
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 C -0.027 3.427
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 376 CG1 -0.027 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 NH1 -0.028 3.278
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD1 -0.029 3.209
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 HE2 -0.031 2.813
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASP 328 OD2 -0.040 2.520
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 301 O -0.041 3.221
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG2 -0.042 3.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 CA -0.043 3.368
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 CG1 -0.044 3.444
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 HH22 -0.044 2.044
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 CG2 -0.046 2.746
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 CG -0.046 2.746
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C LYS 305 HD3 -0.048 2.673
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 CA -0.048 3.373
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 384 CA -0.049 3.374
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLU 246 HG2 -0.049 2.674
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG2 -0.053 2.753
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 H -0.053 2.678
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B LEU 327 O -0.054 3.014
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 CG2 -0.055 2.755
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 HH11 -0.055 2.680
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 HA -0.055 2.680
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 376 HG12 -0.055 2.680
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B GLN 326 CD -0.057 3.457
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 NE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 CG -0.058 3.383
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 CB -0.058 2.758
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B LEU 327 O -0.058 2.538
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 CD -0.058 3.383
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CZ -0.063 3.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 CB -0.067 3.392
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 HE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG2 -0.069 2.769
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D LEU 250 CD1 -0.069 3.551
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG21 -0.071 2.696
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD1 -0.071 2.551
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 HA -0.071 2.853
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 NH2 -0.073 3.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 NH1 -0.073 3.323
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 CA -0.076 3.476
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 C -0.077 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 311 HB2 -0.078 2.778
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG2 -0.081 3.481
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 OG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O -0.084 2.664
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CE2 -0.084 3.484
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 HB3 -0.084 2.709
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ARG 311 C -0.085 2.785
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 304 O -0.086 2.806
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 NE2 -0.087 3.337
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E SER 84 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C TYR 321 OH -0.088 2.588
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A PHE 282 CZ -0.091 3.416
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG11 -0.098 2.578
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 CG1 -0.098 2.798
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 C -0.100 2.800
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 HG1 -0.102 2.102
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 384 C -0.105 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 63 CD -0.106 3.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 HA -0.106 2.806
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD2 -0.108 3.288
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 HG1 -0.110 2.735
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 CG1 -0.111 2.811
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 301 O -0.112 2.817
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 317 HE2 -0.113 2.813
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 O -0.114 3.294
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 CG -0.114 3.514
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 HZ -0.115 2.815
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 NH1 -0.116 2.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 331 HE2 -0.116 2.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 303 CG2 -0.118 2.818
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 HB -0.120 2.120
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 CA -0.121 2.821
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 HA -0.123 2.748
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASP 328 OD2 -0.128 3.308
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PRO 63 HD3 -0.128 2.608
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 HB2 -0.129 2.829
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 H fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 HG11 -0.130 2.130
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 312 HE1 -0.131 2.831
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 CZ -0.131 2.831
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 308 HG11 -0.131 2.913
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 HE2 -0.133 2.833
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 CE -0.134 2.834
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 NE2 -0.134 3.459
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 NE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD1 -0.135 2.840
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 HB3 -0.136 2.136
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 HG22 -0.138 2.138
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 311 CB -0.138 2.838
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B GLN 326 CD -0.139 2.839
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D LEU 334 CD1 -0.139 2.839
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HG3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CE2 -0.140 2.840
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 HG3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG2 -0.141 2.841
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C THR 303 CA -0.142 3.482
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 O -0.142 2.847
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HH11 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C LYS 305 HD3 -0.143 2.143
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 CB -0.144 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 325 HG13 -0.145 2.927
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 312 HE1 -0.146 2.146
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 H -0.149 2.774
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CG -0.149 3.631
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 312 CE1 -0.150 2.850
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 62 O -0.153 3.113
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 O -0.158 2.863
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 317 CE2 -0.159 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 384 HA -0.160 2.160
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 317 HD2 -0.162 2.862
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 HE2 -0.162 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 HE3 -0.164 2.864
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CE2 -0.165 2.865
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 H fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG1 -0.166 2.866
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 CA -0.167 3.492
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 317 HE2 -0.169 2.869
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 305 HG2 -0.170 2.795
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 CD -0.171 3.496
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B LEU 327 O -0.172 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 C -0.174 3.499
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 CG2 -0.175 3.500
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CG -0.175 3.500
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 317 CD2 -0.177 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLU 246 HA -0.178 2.803
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D THR 296 O -0.179 2.884
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 HG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A LEU 327 CA -0.179 2.879
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CD2 -0.179 2.879
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 CA -0.179 3.661
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CE2 -0.180 3.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D VAL 253 HG12 -0.181 2.881
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 HB -0.183 2.808
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E CYS 83 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B GLN 326 OE1 -0.185 2.665
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 299 C -0.186 2.886
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 CG -0.186 3.586
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D LEU 250 HD11 -0.191 2.973
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 223 CZ -0.192 2.892
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 HH11 -0.193 2.193
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 383 O -0.194 3.374
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG1 -0.194 2.894
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 HE2 -0.194 2.194
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D LEU 334 HD11 -0.194 2.894
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 CB -0.196 3.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D VAL 253 CG1 -0.198 2.898
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 330 CD -0.199 2.899
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 HE3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 317 HE2 -0.199 2.199
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CD2 -0.202 2.902
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 CA -0.204 3.384
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CE1 -0.205 3.687
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 305 HG2 -0.205 2.205
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ARG 311 O -0.206 3.386
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B GLN 326 O -0.206 3.068
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 N -0.207 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 330 HD3 -0.209 2.834
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 N -0.209 2.834
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG1 -0.209 3.609
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E SER 84 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 302 NE2 -0.209 3.534
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CZ -0.210 2.910
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 317 HD2 -0.215 2.215
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 303 HG21 -0.217 2.217
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 CE2 -0.218 3.618
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG21 -0.223 2.703
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 H -0.223 2.848
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E SER 84 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 302 HE21 -0.225 2.925
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 317 HE2 -0.228 3.010
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 327 OG -0.229 3.429
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH21 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 HA -0.230 2.230
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CG -0.230 3.555
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 376 HG12 -0.230 2.930
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 384 CA -0.232 2.932
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 CB -0.232 2.932
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 CG -0.233 2.933
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CG -0.234 3.559
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E SER 84 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B LEU 327 O -0.235 3.415
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 331 CE -0.235 3.415
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLN 379 CD -0.236 3.576
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 53 HA -0.236 2.236
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 OE2 -0.238 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D VAL 253 CG1 -0.238 3.638
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 HE3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 317 CE2 -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 331 HG3 -0.240 2.720
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C GLN 302 C -0.241 3.566
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 CD -0.242 2.942
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 317 HE2 -0.242 2.242
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D THR 254 CG2 -0.243 3.725
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CD1 -0.243 3.725
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 OE2 -0.243 2.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 HG21 -0.246 2.946
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 312 CE1 -0.246 3.646
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D TYR 307 HE2 -0.246 2.946
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 CB -0.247 2.947
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ARG 311 C -0.248 3.648
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 299 O -0.248 2.328
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CE2 -0.249 3.649
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 HG21 -0.249 2.949
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 383 O -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C TYR 321 CE1 -0.250 3.732
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 317 CD2 -0.253 3.653
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD1 -0.254 2.334
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 C fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 HA3 -0.254 2.954
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 325 CG2 -0.255 3.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 HA -0.256 2.956
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 330 HD3 -0.256 2.256
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 O -0.256 3.436
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 223 CZ -0.257 2.957
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 CZ -0.257 3.582
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 O -0.257 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 CG -0.258 3.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 53 HA -0.259 2.959
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 O -0.262 2.342
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG2 -0.263 3.663
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C LYS 305 CD -0.264 3.589
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 303 CG2 -0.265 3.590
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 HH12 -0.267 2.892
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG11 -0.268 2.968
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 HH22 -0.268 2.893
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD1 -0.270 3.450
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 HG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A LEU 327 HA -0.271 2.271
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D VAL 205 HG21 -0.271 2.896
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLU 246 CG -0.272 3.597
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 HA -0.272 2.272
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D VAL 205 HG21 -0.273 2.273
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD1 -0.274 2.979
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 CG2 -0.275 2.975
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 CD -0.276 3.758
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 325 HG22 -0.277 3.059
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 383 O -0.278 2.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 303 HG22 -0.279 2.279
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HH11 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C LYS 305 CD -0.280 2.980
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CE2 -0.282 3.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C TYR 54 HB2 -0.282 2.762
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D TYR 307 HE2 -0.283 2.983
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 HE3 -0.284 2.284
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A LEU 327 HD23 -0.284 3.066
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 CD -0.289 3.614
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 HB -0.290 2.990
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD1 -0.291 2.771
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 HE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG21 -0.293 2.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLU 246 HG2 -0.293 2.293
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD2 -0.294 2.999
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C LYS 330 HD2 -0.298 2.923
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D TYR 307 CE2 -0.298 2.998
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E MET 85 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O -0.299 2.379
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG21 -0.299 2.999
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 HB -0.299 2.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 331 HE2 -0.301 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 383 C -0.301 3.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 20 HA3 -0.301 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CZ -0.302 3.702
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 O -0.302 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D THR 254 HG22 -0.302 2.302
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 61 NH1 -0.302 2.927
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D TYR 307 CE2 -0.303 3.703
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD1 -0.304 3.484
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E SER 84 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B LEU 327 O -0.304 2.784
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 -0.306 2.931
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D TYR 307 CE2 -0.306 3.706
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D VAL 253 HG12 -0.307 2.307
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D LEU 334 CD1 -0.308 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 CB -0.309 3.009
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 CG -0.309 3.009
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E SER 84 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C TYR 321 OH -0.312 3.512
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 81 C -0.313 3.638
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 H -0.313 2.313
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 HG22 -0.313 2.313
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLU 384 C -0.315 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 -0.315 2.940
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D VAL 205 CG2 -0.316 3.641
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C MET 331 HG2 -0.316 2.796
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 CB -0.318 3.643
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 N -0.321 3.646
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG1 -0.323 3.723
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CE2 -0.323 3.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 CA -0.323 3.023
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 HD2 -0.324 2.949
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 53 HG13 -0.324 2.324
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 HG22 -0.324 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C SER 327 HG -0.324 3.024
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 HG21 -0.325 2.325
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH21 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 CA -0.325 3.025
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 HB -0.325 2.950
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A TYR 269 CZ -0.328 3.810
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG1 -0.329 3.729
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A PHE 282 HZ -0.330 2.330
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 CG -0.331 3.031
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E SER 84 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 HG11 -0.331 2.331
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 HG3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG21 -0.332 2.332
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C THR 303 N -0.333 3.598
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASP 328 OD2 -0.333 3.513
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLN 379 CD -0.333 3.673
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CD2 -0.333 3.733
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C THR 296 C -0.335 3.035
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HH11 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 N -0.336 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 HG2 -0.337 2.337
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG1 -0.337 3.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 CE -0.337 3.737
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 CE -0.339 3.739
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 HA -0.339 2.339
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 O -0.340 3.202
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 HE2 -0.341 2.341
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 SD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 308 HG13 -0.342 3.124
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 OE2 -0.343 3.048
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 HG21 -0.343 2.343
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 CA -0.346 3.046
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 HG13 -0.346 2.346
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 HE3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 311 CB -0.346 3.046
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 82 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASP 328 OD2 -0.350 2.830
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 20 HA3 -0.350 2.350
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 CG -0.351 3.051
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CD2 -0.351 3.751
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLY 328 CA -0.351 3.051
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 301 HG22 -0.351 2.976
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 HG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A LEU 327 HD23 -0.351 2.351
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 HG13 -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 HB2 -0.353 2.353
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E CYS 83 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A GLU 39 HG2 -0.354 2.354
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C GLN 379 OE1 -0.354 3.074
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 299 O -0.354 3.059
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C TYR 307 CE2 -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C THR 303 HG21 -0.354 3.054
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C ASP 309 OD2 -0.355 3.060
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E SER 84 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C TYR 321 HH -0.355 2.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 20 CA -0.356 3.681
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D THR 254 HG22 -0.356 3.056
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D THR 296 O -0.356 2.436
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D ALA 297 O -0.356 2.436
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D LEU 334 HD11 -0.359 2.359
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D TYR 307 HE2 -0.359 2.359
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C VAL 325 HG11 -0.359 3.141
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E SER 84 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG1 -0.361 3.061
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ARG 324 HH12 -0.361 2.361
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 N fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 HG11 -0.362 2.987
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 311 HB3 -0.363 3.063
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 CG1 -0.363 3.063
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 HG13 -0.365 2.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 -0.365 2.365
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C VAL 76 CG1 -0.365 3.765
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 N -0.366 3.616
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 HG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A LEU 327 C -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ARG 311 HB3 -0.367 2.367
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B GLN 326 OE1 -0.367 2.847
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 CG2 -0.368 3.768
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ILE 376 HG22 -0.368 2.368
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E ARG 86 N fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C VAL 301 CG1 -0.369 3.694
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A PHE 282 HZ -0.369 3.069
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 82 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLU 58 CD -0.369 3.069
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D THR 296 O -0.370 3.550
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 385 CZ -0.371 3.771
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D LEU 334 HD13 -0.372 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 SD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 317 CE2 -0.373 3.855
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 CE2 -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 HG2 -0.375 2.375
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 CE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 317 CZ -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CD -0.376 3.776
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A LEU 327 HA -0.376 3.158
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E CYS 83 SG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B GLU 329 OE2 -0.377 3.239
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E MET 85 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 312 CE2 -0.377 3.077
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 305 CG -0.378 3.703
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E CYS 83 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A TYR 269 OH -0.380 2.880
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 CE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 317 CE2 -0.381 3.781
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 312 CA -0.382 3.082
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D GLU 202 HA -0.382 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 CG -0.385 3.085
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 CG2 -0.386 3.786
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E SER 84 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 52 O -0.386 2.866
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E ARG 82 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C VAL 308 HG11 -0.387 2.387
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E CYS 83 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B GLN 326 CG -0.388 3.788
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E CYS 83 SG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 331 SD -0.388 3.552
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 305 HA -0.389 3.089
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E ARG 82 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C VAL 377 O -0.389 2.869
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ARG 19 O -0.389 3.094
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E MET 85 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 317 CE2 -0.390 3.090
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E ARG 86 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D GLU 246 CA -0.390 3.715
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 82 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C LYS 330 HZ1 -0.390 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 17 CD -0.392 3.092
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C MET 383 O -0.393 2.873
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E MET 85 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 312 CD2 -0.393 3.093
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E MET 85 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D VAL 308 CG1 -0.394 3.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 82 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D VAL 205 CB -0.394 3.719
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E ARG 86 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ASP 203 OD2 -0.394 3.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E CYS 83 HG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B GLN 326 HG2 -0.394 2.394
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E ARG 86 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D LYS 299 O -0.396 3.576
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ARG 86 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 379 HG2 -0.397 2.397
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E MET 85 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C ALA 332 CB -0.398 3.098
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E ARG 86 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLY 82 H -0.399 2.399
428 contacts
> select up
1892 atoms, 1845 bonds, 109 residues, 14 models selected
> hide sel cartoons
> hide sel atoms
> select #1/E:82
24 atoms, 23 bonds, 1 residue, 1 model selected
> select #1/E:82-86 #2/E:82-86 #3/E:82-86 #4/E:82-86 #5/E:82-86 #7/E:82-86
> #8/E:82-86 #9/E:82-86 #10/E:82-86 #11/E:82-86 #12/E:82-86 #13/E:82-86
> #14/E:82-86 #15/E:82-86 #16/E:82-86 #17/E:82-86 #18/E:82-86 #19/E:82-86
> #20/E:82-86 #21/E:82-86
1734 atoms, 1714 bonds, 100 residues, 20 models selected
Clustal Omega Alignment [ID: 1] region chain E..chain E [82-86] RMSD: 96.339
> hide sel atoms
> select clear
Drag select of 88 residues
> select up
2943 atoms, 2953 bonds, 165 residues, 10 models selected
> select up
68421 atoms, 69071 bonds, 4250 residues, 10 models selected
> select clear
Drag select of 18 residues
> select up
2904 atoms, 2899 bonds, 188 residues, 10 models selected
> select up
68417 atoms, 69067 bonds, 4250 residues, 10 models selected
Drag select of 98 residues
> select up
5203 atoms, 5226 bonds, 317 residues, 10 models selected
> select up
68421 atoms, 69071 bonds, 4250 residues, 10 models selected
> select clear
Drag select of 18 residues
> select up
989 atoms, 983 bonds, 69 residues, 10 models selected
> select up
68421 atoms, 69071 bonds, 4250 residues, 10 models selected
> select clear
Drag select of 10 residues
[Repeated 1 time(s)]
> select #1/A-B:136-246 #2/A-B:136-246 #3/A-B:136-246 #4/A-B:136-246
> #5/A-B:136-246 #7/A-B:136-246 #8/A-B:136-246 #9/A-B:136-246 #10/A-B:136-246
> #11/A-B:136-246 #12/A-B:136-246 #13/A-B:136-246 #14/A-B:136-246
> #15/A-B:136-246 #16/A-B:136-246 #17/A-B:136-246 #18/A-B:136-246
> #19/A-B:136-246 #20/A-B:136-246 #21/A-B:136-246
70746 atoms, 71066 bonds, 10 pseudobonds, 4440 residues, 21 models selected
> select #1/A-B:136-246 #2/A-B:136-246 #3/A-B:136-246 #4/A-B:136-246
> #5/A-B:136-246 #7/A-B:136-246 #8/A-B:136-246 #9/A-B:136-246 #10/A-B:136-246
> #11/A-B:136-246 #12/A-B:136-246 #13/A-B:136-246 #14/A-B:136-246
> #15/A-B:136-246 #16/A-B:136-246 #17/A-B:136-246 #18/A-B:136-246
> #19/A-B:136-246 #20/A-B:136-246 #21/A-B:136-246
70746 atoms, 71066 bonds, 10 pseudobonds, 4440 residues, 21 models selected
3 [ID: 3] region 40 chains [136-246] RMSD: 0.722
> select #1/A-B:248-250 #2/A-B:248-250 #3/A-B:248-250 #4/A-B:248-250
> #5/A-B:248-250 #7/A-B:248-250 #8/A-B:248-250 #9/A-B:248-250 #10/A-B:248-250
> #11/A-B:248-250 #12/A-B:248-250 #13/A-B:248-250 #14/A-B:248-250
> #15/A-B:248-250 #16/A-B:248-250 #17/A-B:248-250 #18/A-B:248-250
> #19/A-B:248-250 #20/A-B:248-250 #21/A-B:248-250
2120 atoms, 2160 bonds, 120 residues, 20 models selected
> select #1/A-B:248-250 #2/A-B:248-250 #3/A-B:248-250 #4/A-B:248-250
> #5/A-B:248-250 #7/A-B:248-250 #8/A-B:248-250 #9/A-B:248-250 #10/A-B:248-250
> #11/A-B:248-250 #12/A-B:248-250 #13/A-B:248-250 #14/A-B:248-250
> #15/A-B:248-250 #16/A-B:248-250 #17/A-B:248-250 #18/A-B:248-250
> #19/A-B:248-250 #20/A-B:248-250 #21/A-B:248-250
2120 atoms, 2160 bonds, 120 residues, 20 models selected
3 [ID: 3] region 40 chains [248-250] RMSD: 0.718
> select #1/A-B:247-248 #2/A-B:247-248 #3/A-B:247-248 #4/A-B:247-248
> #5/A-B:247-248 #7/A-B:247-248 #8/A-B:247-248 #9/A-B:247-248 #10/A-B:247-248
> #11/A-B:247-248 #12/A-B:247-248 #13/A-B:247-248 #14/A-B:247-248
> #15/A-B:247-248 #16/A-B:247-248 #17/A-B:247-248 #18/A-B:247-248
> #19/A-B:247-248 #20/A-B:247-248 #21/A-B:247-248
1680 atoms, 1680 bonds, 80 residues, 20 models selected
> select #1/A-B:247-248 #2/A-B:247-248 #3/A-B:247-248 #4/A-B:247-248
> #5/A-B:247-248 #7/A-B:247-248 #8/A-B:247-248 #9/A-B:247-248 #10/A-B:247-248
> #11/A-B:247-248 #12/A-B:247-248 #13/A-B:247-248 #14/A-B:247-248
> #15/A-B:247-248 #16/A-B:247-248 #17/A-B:247-248 #18/A-B:247-248
> #19/A-B:247-248 #20/A-B:247-248 #21/A-B:247-248
1680 atoms, 1680 bonds, 80 residues, 20 models selected
3 [ID: 3] region 40 chains [247-248] RMSD: 0.809
> select #1/A-B:246 #2/A-B:246 #3/A-B:246 #4/A-B:246 #5/A-B:246 #7/A-B:246
> #8/A-B:246 #9/A-B:246 #10/A-B:246 #11/A-B:246 #12/A-B:246 #13/A-B:246
> #14/A-B:246 #15/A-B:246 #16/A-B:246 #17/A-B:246 #18/A-B:246 #19/A-B:246
> #20/A-B:246 #21/A-B:246
960 atoms, 920 bonds, 40 residues, 20 models selected
> select #1/A-B:246 #2/A-B:246 #3/A-B:246 #4/A-B:246 #5/A-B:246 #7/A-B:246
> #8/A-B:246 #9/A-B:246 #10/A-B:246 #11/A-B:246 #12/A-B:246 #13/A-B:246
> #14/A-B:246 #15/A-B:246 #16/A-B:246 #17/A-B:246 #18/A-B:246 #19/A-B:246
> #20/A-B:246 #21/A-B:246
960 atoms, 920 bonds, 40 residues, 20 models selected
3 [ID: 3] region 40 chains [246] RMSD: 0.864
> select #1/A-B:246 #2/A-B:246 #3/A-B:246 #4/A-B:246 #5/A-B:246 #7/A-B:246
> #8/A-B:246 #9/A-B:246 #10/A-B:246 #11/A-B:246 #12/A-B:246 #13/A-B:246
> #14/A-B:246 #15/A-B:246 #16/A-B:246 #17/A-B:246 #18/A-B:246 #19/A-B:246
> #20/A-B:246 #21/A-B:246
960 atoms, 920 bonds, 40 residues, 20 models selected
> select #1/A-B:246 #2/A-B:246 #3/A-B:246 #4/A-B:246 #5/A-B:246 #7/A-B:246
> #8/A-B:246 #9/A-B:246 #10/A-B:246 #11/A-B:246 #12/A-B:246 #13/A-B:246
> #14/A-B:246 #15/A-B:246 #16/A-B:246 #17/A-B:246 #18/A-B:246 #19/A-B:246
> #20/A-B:246 #21/A-B:246
960 atoms, 920 bonds, 40 residues, 20 models selected
3 [ID: 3] region 40 chains [246] RMSD: 0.864
> show sel atoms
> contacts sel interModel false intraMol false select true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
193 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 0.149 2.476
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 0.111 2.514
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 NE2 0.100 2.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 0.088 3.162
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 0.059 3.191
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD 0.054 3.271
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CD 0.043 3.282
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD 0.043 3.282
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 CD 0.041 3.284
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 NE2 0.039 3.211
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 CD 0.036 3.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 NE2 0.030 3.220
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 CD 0.026 3.299
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CD 0.025 3.300
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 NE2 0.022 3.228
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E GLN 214 CD 0.013 3.312
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD 0.012 3.313
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 CD 0.008 3.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 HE22 0.007 1.993
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD 0.004 3.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 O -0.004 2.484
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HB2 -0.007 2.632
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 CD -0.008 3.333
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 NE2 -0.011 3.261
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 CD -0.011 3.336
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CD -0.012 2.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 O -0.014 3.194
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 CG -0.016 3.341
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HE21 -0.025 2.650
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD -0.031 3.356
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CD -0.035 2.735
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CD -0.035 3.360
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 HG3 -0.040 2.665
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 HG3 -0.044 2.669
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 NE2 -0.045 3.370
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E GLN 214 HG3 -0.059 2.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 NE2 -0.065 3.315
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CD -0.067 3.392
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E GLN 214 HG3 -0.067 2.692
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 NE2 -0.069 3.319
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 HE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HE21 -0.088 2.088
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 NE2 -0.089 3.339
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD -0.091 2.791
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 HG3 -0.101 2.726
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 CD -0.103 2.803
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 HG3 -0.105 2.730
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CG -0.107 2.807
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 HG3 -0.113 2.738
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 CG -0.113 2.813
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 NE2 -0.118 3.368
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 HG3 -0.119 2.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CD -0.127 3.452
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 HG3 -0.130 2.755
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 HG3 -0.133 2.133
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 210 OE2 -0.137 2.842
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 HG3 -0.139 2.139
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 HG3 -0.139 2.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CD -0.141 3.466
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 HG3 -0.141 2.766
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 CD -0.144 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 NE2 -0.148 3.398
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 HG3 -0.151 2.151
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 HG3 -0.153 2.153
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD -0.153 3.478
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E GLN 214 CD -0.153 3.478
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 HG3 -0.155 2.155
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 HG3 -0.158 2.158
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 HG3 -0.161 2.161
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 HG3 -0.162 2.162
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 HG3 -0.162 2.162
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 HE22 -0.162 2.787
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD -0.165 2.865
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 NE2 -0.168 3.418
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 HG3 -0.169 2.169
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 HG3 -0.169 2.169
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 HG3 -0.169 2.169
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HE21 -0.170 2.795
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 NE2 -0.170 3.495
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD -0.175 3.575
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 HG3 -0.179 2.179
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 CD -0.179 2.879
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E GLN 214 HG3 -0.181 2.181
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 NE2 -0.181 3.431
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E GLN 214 HG3 -0.182 2.182
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD -0.183 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 HG3 -0.186 2.186
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD -0.189 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 HG3 -0.193 2.193
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CG -0.193 3.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 CD -0.194 2.894
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE2 -0.197 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CG -0.199 3.524
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CG -0.201 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 CD -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 HG3 -0.205 2.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 HG3 -0.207 2.832
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CD -0.208 3.533
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 HG3 -0.211 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 HG3 -0.211 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CG -0.215 3.540
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 HG3 -0.218 2.843
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 HG3 -0.218 2.218
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 CD -0.219 3.544
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CD -0.220 2.920
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 CG -0.221 3.546
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 CG -0.221 3.546
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E GLN 214 CG -0.222 3.547
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 CD -0.226 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 HG3 -0.226 2.851
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 CD -0.229 2.929
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 NE2 -0.232 3.557
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 CB -0.233 3.558
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 CG -0.236 3.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CG -0.236 3.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CG -0.240 2.940
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 NE2 -0.244 3.494
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 CD -0.249 2.949
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 NE2 -0.251 3.501
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 CG -0.254 3.579
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 NE2 -0.254 3.579
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 CG -0.256 3.581
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 NE2 -0.257 3.507
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E GLN 214 CD -0.259 2.959
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 NE2 -0.260 3.510
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 CG -0.261 3.586
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CG -0.261 3.586
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 HG3 -0.263 2.888
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 CD -0.263 3.588
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CG -0.264 3.589
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 CG -0.269 3.594
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 NE2 -0.269 3.594
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CG -0.270 3.595
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 NE2 -0.270 3.520
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLU 210 OE2 -0.272 2.352
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E GLN 214 CG -0.274 3.599
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 NE2 -0.276 3.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HE21 -0.280 2.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 OE2 -0.282 3.462
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 CG -0.282 2.982
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 -0.292 3.472
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CD -0.294 2.994
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CG -0.294 3.619
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HB2 -0.297 2.997
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLU 210 HG3 -0.298 2.923
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 CG -0.301 3.626
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CG -0.302 3.002
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 CG -0.304 3.004
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E GLN 214 OE1 -0.306 3.011
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD -0.308 3.008
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CD -0.308 3.008
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 HG3 -0.310 2.935
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 NE2 -0.310 3.635
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E GLN 214 CD -0.310 3.710
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 NE2 -0.311 3.561
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLN 214 CG -0.315 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 NE2 -0.316 3.641
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 CG -0.321 3.646
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 NE2 -0.325 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 210 CG -0.327 3.027
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 HE21 -0.327 3.027
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 CD -0.330 3.655
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E GLN 214 NE2 -0.331 3.581
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD -0.332 3.657
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E GLN 214 HG3 -0.333 2.958
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 CG -0.336 3.036
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E GLU 210 CG -0.339 3.664
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 NE2 -0.339 3.664
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 NE2 -0.340 2.965
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B ARG 246 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/D GLN 200 CB -0.341 3.741
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E GLN 214 CD -0.342 3.742
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 CG -0.343 3.043
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 CD -0.344 3.744
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 NH2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 CD -0.348 3.673
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 CD -0.349 3.749
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E GLN 214 CD -0.350 3.750
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E GLN 214 CG -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E GLN 214 CD -0.358 3.758
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E GLN 214 CG -0.365 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CG -0.378 3.078
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E GLN 214 CD -0.379 3.779
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 HE fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLU 210 OE2 -0.380 2.460
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 HH12 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 CD -0.380 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 HH12 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CD -0.380 3.080
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E GLN 214 CG -0.382 3.082
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 NH1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 NE2 -0.386 3.636
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E GLN 214 NE2 -0.387 3.712
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E GLN 214 CG -0.388 3.088
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E GLN 214 CD -0.393 3.793
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ARG 246 HH22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E GLN 214 CG -0.394 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 HH22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLN 214 CG -0.396 3.096
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E GLN 214 CD -0.397 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A ARG 246 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E GLU 210 OE2 -0.400 3.580
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ARG 246 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E GLN 214 CD -0.400 3.800
193 contacts
> ui tool show Log
> select clear
Drag select of 560 residues
> select up
13500 atoms, 13631 bonds, 842 residues, 6 models selected
> select up
26446 atoms, 26710 bonds, 1680 residues, 6 models selected
> sequence align sel
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: U4G5NF3SQB6BNK04
Webservices job finished: U4G5NF3SQB6BNK04
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/D,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> select #1/D:46
15 atoms, 14 bonds, 1 residue, 1 model selected
> select #1/D:46-105 #2/D:46-105 #3/D:46-105 #4/D:46-105 #7/D:46-105
> #10/D:46-105
5898 atoms, 5964 bonds, 360 residues, 6 models selected
Clustal Omega Alignment [ID: 2] region chain D..chain D [46-105] RMSD: 6.624
> select clear
[Repeated 2 time(s)]
> hide atoms
> select Mg
80 atoms, 12 bonds, 80 residues, 20 models selected
> show sel atoms
> style sel sphere
Changed 80 atom styles
> color sel blue
> select clear
Drag select of 20 residues
> select up
1562 atoms, 1564 bonds, 88 residues, 10 models selected
> select up
68417 atoms, 69067 bonds, 4250 residues, 10 models selected
> select clear
Drag select of 10 residues
> select up
1880 atoms, 1908 bonds, 112 residues, 10 models selected
> select up
68421 atoms, 69071 bonds, 4250 residues, 10 models selected
> select clear
Drag select of 10 residues
> select up
4152 atoms, 4202 bonds, 282 residues, 10 models selected
> select up
68417 atoms, 69067 bonds, 4250 residues, 10 models selected
> select clear
Drag select of 20 residues
> sequence chain #1/B#2/B#3/B#4/B#5/B#7/A#8/A#9/A#10/A#11/A
Alignment identifier is 2
> select up
2904 atoms, 2899 bonds, 188 residues, 10 models selected
> select down
300 atoms, 20 residues, 10 models selected
> select clear
> select /A,B:169
560 atoms, 520 bonds, 40 residues, 20 models selected
> select clear
Drag select of 10 residues
> sequence chain #1/A#2/A#3/A#4/A#5/A#7/B#8/B#9/B#10/B#11/B
Alignment identifier is 3
> select up
858 atoms, 848 bonds, 56 residues, 10 models selected
> select down
140 atoms, 10 residues, 10 models selected
> show sel atoms
> color sel black
> select /A,B:169
560 atoms, 520 bonds, 40 residues, 20 models selected
> show sel atoms
[Repeated 1 time(s)]
> color sel black
> style sel ball
Changed 560 atom styles
> select add #1
34085 atoms, 34635 bonds, 205 pseudobonds, 2022 residues, 23 models selected
> select subtract #1
532 atoms, 494 bonds, 38 residues, 20 models selected
> select add #2
34059 atoms, 34610 bonds, 21 pseudobonds, 2020 residues, 21 models selected
> select subtract #2
504 atoms, 468 bonds, 36 residues, 19 models selected
> select add #3
34026 atoms, 34579 bonds, 24 pseudobonds, 2018 residues, 20 models selected
> select subtract #3
476 atoms, 442 bonds, 34 residues, 18 models selected
> select add #4
33997 atoms, 34554 bonds, 26 pseudobonds, 2016 residues, 19 models selected
> select subtract #4
448 atoms, 416 bonds, 32 residues, 17 models selected
> select add #5
33975 atoms, 34534 bonds, 33 pseudobonds, 2014 residues, 18 models selected
> select subtract #5
420 atoms, 390 bonds, 30 residues, 16 models selected
> select add #7
33946 atoms, 34506 bonds, 19 pseudobonds, 2012 residues, 17 models selected
> select subtract #7
392 atoms, 364 bonds, 28 residues, 15 models selected
> select add #8
33913 atoms, 34474 bonds, 36 pseudobonds, 2010 residues, 16 models selected
> select subtract #8
364 atoms, 338 bonds, 26 residues, 14 models selected
> select add #9
33885 atoms, 34449 bonds, 33 pseudobonds, 2008 residues, 15 models selected
> select subtract #9
336 atoms, 312 bonds, 24 residues, 13 models selected
> select add #10
33856 atoms, 34421 bonds, 22 pseudobonds, 2006 residues, 14 models selected
> select subtract #10
308 atoms, 286 bonds, 22 residues, 12 models selected
> select add #11
33831 atoms, 34398 bonds, 25 pseudobonds, 2004 residues, 13 models selected
> select subtract #11
280 atoms, 260 bonds, 20 residues, 11 models selected
> show sel cartoons
[Repeated 1 time(s)]
> hide sel atoms
> select clear
> select /A,B:169
560 atoms, 520 bonds, 40 residues, 20 models selected
> hide sel atoms
> select clear
Drag select of 24 residues
Drag select of 10 residues
> select clear
[Repeated 1 time(s)]Drag select of 1 residues
> select #3/A:375
19 atoms, 18 bonds, 1 residue, 1 model selected
> select /A,B:1-30
17720 atoms, 17960 bonds, 1200 residues, 20 models selected
> hide sel cartoons
> select /A,B:31-375
226039 atoms, 228119 bonds, 103 pseudobonds, 13800 residues, 21 models
selected
> show sel cartoons
> select /A,B:376-425
29919 atoms, 30119 bonds, 2000 residues, 20 models selected
> hide sel cartoons
> select clear
[Repeated 1 time(s)]
> select /A,B:169
560 atoms, 520 bonds, 40 residues, 20 models selected
> color sel bychain
> select clear
Drag select of 137 residues
> select up
8609 atoms, 8630 bonds, 499 residues, 20 models selected
> select up
136840 atoms, 138140 bonds, 8500 residues, 20 models selected
> sequence align sel
Alignment identifier is 4
Showing conservation header ("seq_conservation" residue attribute) for
alignment 4
Webservices job id: GL76BBUV7FXPHUJW
Webservices job finished: GL76BBUV7FXPHUJW
> select clear
Drag select of 298 residues
Drag select of 40 residues
> sequence align sel
Alignment identifier is 4
Showing conservation header ("seq_conservation" residue attribute) for
alignment 4
Webservices job id: P8AX474HVT92JQDJ
Webservices job finished: P8AX474HVT92JQDJ
> sequence header 4 rmsd show
Chains used in RMSD evaluation for alignment 4:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 4
> sequence header 4 conservation hide
Hiding conservation header for alignment 4
> select clear
> save /Users/pcarlton/Desktop/dsb123113compareX-dsb3too.cxs
> select /A,B:1-38
22080 atoms, 22360 bonds, 1520 residues, 20 models selected
> hide sel cartoons
> select /A,B:370-425
33959 atoms, 34159 bonds, 2240 residues, 20 models selected
> hide sel cartoons
> select clear
Drag select of 464 residues
> sequence chain
> #1/E#2/E#3/E#4/E#5/E#7/E#8/E#9/E#10/E#11/E#12/E#13/E#14/E#15/E#16/E#17/E#18/E#19/E#20/E#21/E
Alignment identifier is 4
> select clear
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35226
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35222
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35228
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35225
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 35223
Chain information for
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26
---
Chain | Description
A B | No description available
C D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33672
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33677
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33671
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33680
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> open
> /Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif
Summary of feedback from opening
/Users/pcarlton/dsb123113_c/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33677
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> select #22-31
343251 atoms, 349267 bonds, 159 pseudobonds, 20365 residues, 20 models
selected
> hide sel atoms
> mmaker #22-31/E to #1/E
Computing secondary structure
[Repeated 9 time(s)] Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif, chain E
(#22), sequence alignment score = 1717.2
RMSD between 161 pruned atom pairs is 0.391 angstroms; (across all 345 pairs:
74.826)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif, chain E
(#23), sequence alignment score = 1716.6
RMSD between 180 pruned atom pairs is 0.570 angstroms; (across all 345 pairs:
66.608)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif, chain E
(#24), sequence alignment score = 1692.6
RMSD between 49 pruned atom pairs is 0.926 angstroms; (across all 345 pairs:
32.601)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif, chain E
(#25), sequence alignment score = 1675.8
RMSD between 177 pruned atom pairs is 0.495 angstroms; (across all 345 pairs:
62.168)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif, chain E
(#26), sequence alignment score = 1694.4
RMSD between 52 pruned atom pairs is 1.020 angstroms; (across all 345 pairs:
36.706)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif, chain E
(#27), sequence alignment score = 1750.8
RMSD between 183 pruned atom pairs is 0.443 angstroms; (across all 345 pairs:
15.840)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif, chain E
(#28), sequence alignment score = 1770
RMSD between 132 pruned atom pairs is 0.207 angstroms; (across all 345 pairs:
15.735)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif, chain E
(#29), sequence alignment score = 1756.2
RMSD between 176 pruned atom pairs is 0.321 angstroms; (across all 345 pairs:
26.337)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif, chain E
(#30), sequence alignment score = 1728.6
RMSD between 10 pruned atom pairs is 1.401 angstroms; (across all 345 pairs:
35.266)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif, chain E
(#31), sequence alignment score = 1731
RMSD between 179 pruned atom pairs is 0.446 angstroms; (across all 345 pairs:
19.185)
> mmaker #22-31/E:160-340 to #1/E:160-340
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif, chain E
(#22), sequence alignment score = 934.7
RMSD between 178 pruned atom pairs is 0.405 angstroms; (across all 181 pairs:
0.505)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif, chain E
(#23), sequence alignment score = 927.5
RMSD between 176 pruned atom pairs is 0.575 angstroms; (across all 181 pairs:
0.820)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif, chain E
(#24), sequence alignment score = 941.3
RMSD between 178 pruned atom pairs is 0.598 angstroms; (across all 181 pairs:
0.692)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif, chain E
(#25), sequence alignment score = 930.5
RMSD between 178 pruned atom pairs is 0.497 angstroms; (across all 181 pairs:
0.587)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif, chain E
(#26), sequence alignment score = 920.3
RMSD between 178 pruned atom pairs is 0.513 angstroms; (across all 181 pairs:
0.599)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif, chain E
(#27), sequence alignment score = 947.9
RMSD between 177 pruned atom pairs is 0.394 angstroms; (across all 181 pairs:
0.688)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif, chain E
(#28), sequence alignment score = 947.9
RMSD between 177 pruned atom pairs is 0.266 angstroms; (across all 181 pairs:
0.636)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif, chain E
(#29), sequence alignment score = 940.7
RMSD between 177 pruned atom pairs is 0.316 angstroms; (across all 181 pairs:
0.644)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif, chain E
(#30), sequence alignment score = 944.9
RMSD between 173 pruned atom pairs is 0.588 angstroms; (across all 181 pairs:
0.887)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain E
(#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif, chain E
(#31), sequence alignment score = 931.1
RMSD between 175 pruned atom pairs is 0.425 angstroms; (across all 181 pairs:
0.825)
> select #22-31:A/169
Nothing selected
> select #22-31/A:169
140 atoms, 130 bonds, 10 residues, 10 models selected
> show sel atoms
> color sel cornflower blue
> select #22-31/B:169
140 atoms, 130 bonds, 10 residues, 10 models selected
> show sel atoms
> mmaker #22-31/A to #16/A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif, chain A
(#22), sequence alignment score = 2030.2
RMSD between 342 pruned atom pairs is 0.528 angstroms; (across all 425 pairs:
22.515)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif, chain A
(#23), sequence alignment score = 2026.6
RMSD between 329 pruned atom pairs is 0.469 angstroms; (across all 425 pairs:
17.741)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif, chain A
(#24), sequence alignment score = 2021.8
RMSD between 331 pruned atom pairs is 0.500 angstroms; (across all 425 pairs:
7.867)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif, chain A
(#25), sequence alignment score = 1996
RMSD between 330 pruned atom pairs is 0.498 angstroms; (across all 425 pairs:
8.019)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif, chain A
(#26), sequence alignment score = 2025.4
RMSD between 332 pruned atom pairs is 0.521 angstroms; (across all 425 pairs:
9.090)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif, chain A
(#27), sequence alignment score = 2043.4
RMSD between 331 pruned atom pairs is 0.306 angstroms; (across all 425 pairs:
25.134)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif, chain A
(#28), sequence alignment score = 2023.6
RMSD between 332 pruned atom pairs is 0.325 angstroms; (across all 425 pairs:
24.310)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif, chain A
(#29), sequence alignment score = 2045.2
RMSD between 325 pruned atom pairs is 0.426 angstroms; (across all 425 pairs:
21.633)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif, chain A
(#30), sequence alignment score = 2006.8
RMSD between 329 pruned atom pairs is 0.386 angstroms; (across all 425 pairs:
24.987)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif, chain A
(#31), sequence alignment score = 2077.6
RMSD between 334 pruned atom pairs is 0.399 angstroms; (across all 425 pairs:
24.274)
> mmaker #22-31/A:35-365 to #16/A:35-365
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif, chain A
(#22), sequence alignment score = 1643.2
RMSD between 328 pruned atom pairs is 0.491 angstroms; (across all 331 pairs:
0.810)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif, chain A
(#23), sequence alignment score = 1654
RMSD between 326 pruned atom pairs is 0.469 angstroms; (across all 331 pairs:
0.668)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif, chain A
(#24), sequence alignment score = 1640.2
RMSD between 328 pruned atom pairs is 0.499 angstroms; (across all 331 pairs:
0.898)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif, chain A
(#25), sequence alignment score = 1613.8
RMSD between 326 pruned atom pairs is 0.493 angstroms; (across all 331 pairs:
0.779)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif, chain A
(#26), sequence alignment score = 1650.4
RMSD between 328 pruned atom pairs is 0.512 angstroms; (across all 331 pairs:
0.826)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif, chain A
(#27), sequence alignment score = 1628.2
RMSD between 326 pruned atom pairs is 0.290 angstroms; (across all 331 pairs:
1.189)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif, chain A
(#28), sequence alignment score = 1613.2
RMSD between 326 pruned atom pairs is 0.310 angstroms; (across all 331 pairs:
1.150)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif, chain A
(#29), sequence alignment score = 1649.2
RMSD between 326 pruned atom pairs is 0.415 angstroms; (across all 331 pairs:
1.068)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif, chain A
(#30), sequence alignment score = 1601.8
RMSD between 326 pruned atom pairs is 0.382 angstroms; (across all 331 pairs:
0.872)
Matchmaker fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif, chain A
(#16) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif, chain A
(#31), sequence alignment score = 1643.8
RMSD between 327 pruned atom pairs is 0.399 angstroms; (across all 331 pairs:
1.034)
> select #22-31/E:308
210 atoms, 210 bonds, 10 residues, 10 models selected
> show sel atoms
> style sel ball
Changed 210 atom styles
> save /Users/pcarlton/Desktop/wow.cxs
——— End of log from Fri Sep 5 17:09:26 2025 ———
> view name session-start
opened ChimeraX session
> select clear
> select /A,B:169
840 atoms, 780 bonds, 60 residues, 30 models selected
> hide sel atoms
> select clear
> select /E:168-345
87718 atoms, 88618 bonds, 5340 residues, 30 models selected
> show sel cartoons
> hide sel atoms
> select clear
Drag select of 1041 residues
> clashes interModel false
1 clashes
> select clear
> select ~sel & ##selected
Nothing selected
> select /E:168-345
87718 atoms, 88618 bonds, 5340 residues, 30 models selected
> contacts sel restrict /A,B interModel false intraMol false saveFile
> dsb3spo.contacts
4003 contacts
> contacts sel restrict /A,B interModel false intraMol false select true
4003 contacts
> close #6
> sequence align /E
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: VT5L0VD3M92G6MEL
Webservices job finished: VT5L0VD3M92G6MEL
> sequence header rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header conservation hide
Hiding conservation header for alignment 1
> select clear
Drag select of 22 residues
> sequence align sel
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: 8P4ATEMZVB3IOJAN
Webservices job finished: 8P4ATEMZVB3IOJAN
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> select clear
> contacts sel restrict /A,B interModel false intraMol false select true
No atoms match given atom specifier
> select /E:168-345
87718 atoms, 88618 bonds, 5340 residues, 30 models selected
> contacts sel restrict /A,B interModel false intraMol false select true
4003 contacts
> select clear
> select #12-26/C,D
178806 atoms, 180967 bonds, 1 pseudobond, 11550 residues, 16 models selected
> select clear
Drag select of 1123 residues
> sequence align sel
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: Z6DGN5O5C5V8VS33
Webservices job finished: Z6DGN5O5C5V8VS33
> sequence header 3 rmsd show
Chains used in RMSD evaluation for alignment 3:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 3
> sequence header 3 conservation hide
Hiding conservation header for alignment 3
> select clear
> select #1/C:122
12 atoms, 11 bonds, 1 residue, 1 model selected
> select #1/C:122-133 #2/C:122-133 #3/C:122-133 #4/C:122-133 #5/C:122-133
> #12/C:122-133 #13/C:122-133 #14/C:122-133 #15/C:122-133 #16/C:122-133
> #17/D:122-133 #18/D:122-133 #19/D:122-133 #20/D:122-133 #21/D:122-133
3060 atoms, 3090 bonds, 180 residues, 15 models selected
Clustal Omega Alignment [ID: 3] region chain C..chain D [122-133] RMSD: 1.063
> select #1/C:120
14 atoms, 13 bonds, 1 residue, 1 model selected
> select #1/C:120-134 #2/C:120-134 #3/C:120-134 #4/C:120-134 #5/C:120-134
> #12/C:120-134 #13/C:120-134 #14/C:120-134 #15/C:120-134 #16/C:120-134
> #17/D:120-134 #18/D:120-134 #19/D:120-134 #20/D:120-134 #21/D:120-134
3585 atoms, 3615 bonds, 225 residues, 15 models selected
Clustal Omega Alignment [ID: 3] region chain C..chain D [120-134] RMSD: 1.328
> select clear
> close #6
> select clear
> select #1-11/B:1-106 #27-31/B:1-106
25603 atoms, 25843 bonds, 1590 residues, 15 models selected
> select clear
> select #1-11/D:1-106 #27-31/D:1-106
25763 atoms, 25988 bonds, 1590 residues, 15 models selected
> show sel cartoons
> color sel purple
> select clear
> select #8/D:81
19 atoms, 18 bonds, 1 residue, 1 model selected
> select add #5/D:37
29 atoms, 27 bonds, 2 residues, 2 models selected
> select add #30/D:81
48 atoms, 45 bonds, 3 residues, 3 models selected
> select add #27/D:4
72 atoms, 68 bonds, 4 residues, 4 models selected
> select add #11/D:37
82 atoms, 77 bonds, 5 residues, 5 models selected
> select up
446 atoms, 445 bonds, 27 residues, 5 models selected
> select up
22038 atoms, 22258 bonds, 1400 residues, 5 models selected
> hide sel cartoons
Drag select of 13 residues
Drag select of 11 residues
Drag select of 3 residues
> select up
23369 atoms, 23595 bonds, 1482 residues, 8 models selected
> select up
35258 atoms, 35610 bonds, 2240 residues, 8 models selected
> hide sel cartoons
> select clear
Drag select of 385 residues
> sequence align sel
Alignment identifier is 4
Showing conservation header ("seq_conservation" residue attribute) for
alignment 4
Webservices job id: TN7CTSKYQMW12NSZ
Webservices job finished: TN7CTSKYQMW12NSZ
> select clear
> select #29/D:81
19 atoms, 18 bonds, 1 residue, 1 model selected
> select add #11/C:44
38 atoms, 36 bonds, 2 residues, 2 models selected
> sequence align sel
Alignment identifier is 5
Showing conservation header ("seq_conservation" residue attribute) for
alignment 5
Webservices job id: CXEX7NHTVOOKQ1HJ
Webservices job finished: CXEX7NHTVOOKQ1HJ
> sequence header 5 rmsd show
Chains used in RMSD evaluation for alignment 5:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 5
> select #11/C:57
17 atoms, 16 bonds, 1 residue, 1 model selected
> select #11/C:57-77 #29/D:52-72
735 atoms, 743 bonds, 42 residues, 2 models selected
Clustal Omega Alignment [ID: 5] region chain C..chain D [57-77] RMSD: 3.872
> color (#!11,29 & sel) orange
> color (#!11,29 & sel) red
> select #11/C:102
20 atoms, 20 bonds, 1 residue, 1 model selected
> select #11/C:102-112 #29/D:98-108
342 atoms, 343 bonds, 22 residues, 2 models selected
Clustal Omega Alignment [ID: 5] region chain C..chain D [103-113] RMSD: 3.398
> color (#!11,29 & sel) red
> select #29/D:1-116
1865 atoms, 1881 bonds, 116 residues, 1 model selected
> show sel cartoons
Drag select of 5 residues
> hide sel cartoons
Drag select of 3 residues
> color sel red
> select clear
> select #29/D:47
17 atoms, 16 bonds, 1 residue, 1 model selected
> select up
110 atoms, 109 bonds, 7 residues, 1 model selected
> select up
4408 atoms, 4452 bonds, 280 residues, 1 model selected
> color sel red
> select clear
> select #11/C:112
12 atoms, 11 bonds, 1 residue, 1 model selected
> select up
312 atoms, 315 bonds, 20 residues, 2 models selected
> select up
5961 atoms, 6033 bonds, 385 residues, 2 models selected
> color (#!11 & sel) forest green
> color (#!11 & sel) lime
> select clear
> select #29/D
4408 atoms, 4452 bonds, 280 residues, 1 model selected
> show sel cartoons
> select #29/D:150-290
2022 atoms, 2040 bonds, 131 residues, 1 model selected
> hide sel cartoons
Drag select of 1059 residues
> select intersect /C
2455 atoms, 160 residues, 5 models selected
> sequence chain #17/C#18/C#19/C#20/C#21/C
Alignment identifier is 6
> select up
7192 atoms, 7274 bonds, 489 residues, 5 models selected
> select down
2455 atoms, 160 residues, 5 models selected
> select #17/C:181 #18/C:181 #19/C:181 #20/C:181 #21/C:181
50 atoms, 45 bonds, 5 residues, 5 models selected
> select #17/C:181-186 #18/C:181-186 #19/C:181-186 #20/C:181-186 #21/C:181-186
450 atoms, 455 bonds, 30 residues, 5 models selected
6 [ID: 6] region 5 chains [181-186] RMSD: 24.070
> select sequence TANEFFSQP
6075 atoms, 6165 bonds, 405 residues, 30 models selected
> show sel cartoons
> color (#!1-5,7-31 & sel) yellow
> hide sel cartoons
> show sel cartoons
> contacts sel interModel false intraMol false log true select true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: False
1241 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 O 0.252 2.708
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A SER 370 OG 0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 379 CG 0.234 2.946
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 O 0.216 2.964
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 O 0.205 2.975
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ALA 360 O 0.202 2.278
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A GLN 303 CD 0.200 2.980
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ALA 360 O 0.199 2.981
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 O 0.198 2.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 CD2 0.197 2.983
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 180 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B GLU 374 OE2 0.197 2.983
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 NH1 0.192 3.133
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A CYS 306 O 0.188 2.992
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 C 0.186 3.214
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B PRO 366 O 0.177 3.003
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A LYS 343 O 0.173 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CE2 0.172 3.008
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A SER 370 CB 0.167 3.013
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PRO 366 O 0.167 3.013
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 NH1 0.166 3.159
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B PHE 362 HE1 0.159 2.321
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH2 0.156 3.169
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 CZ 0.152 3.028
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 CB 0.152 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ASN 182 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 O 0.150 3.030
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH2 0.150 3.175
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ASN 342 O 0.148 2.332
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH1 0.148 3.177
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH2 0.145 3.180
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 367 O 0.143 3.037
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH2 0.142 3.183
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 O 0.139 3.041
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NH2 0.130 3.195
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B LYS 343 O 0.124 2.356
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A ASN 342 O 0.122 2.358
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B LYS 343 O 0.121 3.059
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B PHE 299 C 0.121 3.279
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH1 0.119 3.206
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A LYS 343 O 0.113 2.367
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A LYS 343 O 0.113 2.367
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A LYS 343 O 0.108 3.072
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PRO 188 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 CD 0.108 3.072
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 298 CD 0.102 3.078
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 HE2 0.096 2.384
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH1 0.095 3.230
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 298 NH2 0.093 3.232
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 O 0.092 3.088
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A CYS 306 O 0.091 3.089
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH2 0.091 3.234
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 CD 0.088 3.237
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A LYS 343 O 0.083 3.097
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 CD 0.082 3.318
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 CD 0.081 3.099
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ARG 157 NH2 0.081 3.244
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE2 0.081 2.399
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B LYS 343 O 0.077 2.403
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 CG2 0.074 3.326
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NE 0.074 2.551
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 CD 0.072 3.328
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 HD2 0.072 2.628
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ASN 342 O 0.072 3.108
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 298 NH2 0.071 2.554
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 334 NH2 0.068 3.257
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 298 NH2 0.067 3.258
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PRO 366 C 0.066 3.334
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ASN 342 O 0.065 2.415
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 NH1 0.064 3.261
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B PRO 366 CB 0.063 3.337
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B VAL 331 CG2 0.063 3.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 HH11 0.061 2.639
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 CZ 0.060 3.340
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ALA 20 N 0.056 3.269
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 CG2 0.055 3.345
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH1 0.055 3.270
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 HH11 0.052 2.648
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NE 0.050 3.275
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE1 0.049 2.431
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 186 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 O 0.049 3.131
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 CG1 0.048 3.352
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NE 0.047 3.278
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 CD 0.046 3.279
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 CG 0.044 3.356
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLN 187 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 HD1 0.044 2.656
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PHE 344 CB 0.044 2.656
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 NH1 0.043 3.282
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B PRO 366 C 0.043 3.357
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 CG1 0.043 2.657
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 298 NH2 0.043 2.582
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B LYS 343 O 0.042 3.138
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A PHE 344 CB 0.042 2.658
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A GLN 303 OE1 0.040 2.920
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH2 0.040 3.285
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 334 NH1 0.040 3.285
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ASN 342 HD21 0.039 1.961
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A LYS 343 O 0.038 2.442
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A LYS 343 O 0.033 2.447
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE2 0.032 3.148
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 SD 0.032 3.450
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PRO 188 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 CD 0.031 3.149
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 HE 0.031 1.969
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 C 0.030 3.150
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 HE 0.029 1.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HG2 0.028 2.452
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 CG1 0.027 2.673
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 CB 0.027 3.373
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B GLU 335 OE2 0.027 2.453
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ALA 20 H 0.027 2.673
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH2 0.026 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 NH2 0.026 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 CZ 0.025 3.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PHE 296 HE2 0.021 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 80 HH22 0.018 1.982
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PRO 188 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E GLU 134 OE2 0.014 2.466
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A ASN 342 O 0.013 3.167
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ALA 181 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 OE1 0.012 3.168
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 O 0.012 3.168
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 CB 0.011 3.389
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A CYS 306 O 0.011 2.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B ILE 325 CD1 0.010 2.690
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 C 0.010 3.390
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 186 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 O 0.009 2.471
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 O 0.007 3.173
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NE 0.006 3.319
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 OG 0.006 2.494
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 CG1 0.004 2.696
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 HE 0.004 2.696
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 O 0.004 2.476
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 334 NH2 0.004 3.321
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH2 0.004 3.321
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 O 0.004 3.176
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 CG 0.003 3.397
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 334 HH12 0.002 2.698
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NH2 0.002 3.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH21 0.002 2.698
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 CZ 0.001 3.399
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 CG1 0.001 2.699
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 HB2 0.001 2.479
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B PHE 362 CE1 -0.000 3.180
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE1 -0.001 2.481
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 O -0.002 2.482
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 NH2 -0.002 2.627
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH1 -0.002 2.627
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B GLN 303 OE1 -0.005 2.965
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 CZ -0.005 3.405
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 NH1 -0.008 2.633
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C THR 180 HG22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A PRO 366 O -0.008 2.488
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NE -0.009 2.634
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 298 NH2 -0.010 3.335
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 CD2 -0.010 3.410
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B LYS 343 O -0.011 3.191
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 O -0.012 3.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 CD1 -0.013 3.413
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 367 O -0.013 2.493
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 298 HH21 -0.013 2.713
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CD1 -0.014 3.194
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 180 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CD -0.014 2.714
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B HIS 297 CD2 -0.015 3.415
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B GLU 335 OE2 -0.015 3.195
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B GLN 303 O -0.015 3.195
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 HD13 -0.016 2.496
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CD2 -0.017 3.417
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 CG -0.017 3.417
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A VAL 331 CG2 -0.017 3.197
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B LYS 343 O -0.017 3.197
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 335 OE2 -0.018 3.198
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 CG -0.019 3.419
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PRO 188 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HD3 -0.020 2.500
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 HE -0.020 2.720
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 379 HG3 -0.021 2.501
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 NE2 -0.022 3.347
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 NE2 -0.022 3.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HZ3 -0.023 2.723
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 180 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B GLU 374 OE2 -0.024 3.204
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A CYS 306 O -0.025 2.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HZ3 -0.025 2.725
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 HE -0.025 2.725
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A SER 370 OG -0.027 2.527
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ASN 342 ND2 -0.028 2.653
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B GLN 303 O -0.028 2.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B LYS 343 HE3 -0.029 2.509
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 NE2 -0.030 3.355
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PRO 188 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HD3 -0.031 2.511
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 HD2 -0.032 2.732
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 186 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 HD2 -0.032 2.512
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 HE21 -0.033 2.733
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 OE1 -0.034 2.514
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 O -0.034 2.514
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D THR 180 HG22 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B PRO 366 O -0.035 2.515
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 NE -0.035 2.660
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 O -0.036 2.516
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 CG -0.037 3.437
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 HE -0.038 2.738
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 OG -0.038 2.538
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH1 -0.039 2.664
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 CB -0.039 2.739
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A VAL 331 CG2 -0.040 3.440
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH2 -0.040 3.365
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 HE -0.042 2.042
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 OG -0.043 3.243
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 CB -0.043 2.743
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ALA 20 N -0.043 2.668
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B PHE 292 HE2 -0.045 2.045
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D THR 180 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B PRO 366 O -0.045 3.225
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CD2 -0.047 3.447
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE1 -0.047 3.227
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 NZ -0.048 3.373
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 OG -0.048 2.548
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 CG1 -0.049 3.449
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 CG2 -0.049 3.229
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PHE 296 CE2 -0.051 3.451
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ASN 342 O -0.051 3.231
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A SER 370 OG -0.052 2.552
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CG -0.053 3.453
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NE -0.054 3.379
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 CZ -0.055 3.235
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 NE2 -0.056 3.381
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A SER 370 HB2 -0.056 2.536
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C THR 180 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A PRO 366 O -0.056 3.236
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A HIS 297 CD2 -0.057 3.457
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 OE1 -0.058 3.238
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 HE21 -0.059 2.759
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CG -0.059 3.459
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 CG -0.059 3.459
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 NE2 -0.060 3.385
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 HG23 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ARG 157 NH2 -0.062 2.687
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 CB -0.062 3.462
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLN 187 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 ND1 -0.063 3.388
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH2 -0.063 3.388
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 298 NH2 -0.064 2.689
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 CG -0.064 3.464
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A PHE 292 CE2 -0.065 3.465
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D TYR 213 CE2 -0.066 3.246
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 HH21 -0.066 2.766
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B PRO 366 O -0.067 3.247
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B THR 300 N -0.067 2.692
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 377 O -0.067 2.547
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 298 HD3 -0.068 2.548
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 C -0.068 3.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HE3 -0.068 2.548
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CZ -0.069 3.469
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 CD1 -0.070 2.770
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CZ -0.072 3.252
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A HIS 297 CD2 -0.072 3.472
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A HIS 297 HD2 -0.072 2.772
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH22 -0.072 2.772
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C SER 186 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 NH1 -0.073 2.698
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 NH1 -0.073 2.698
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B THR 300 N -0.073 3.398
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HG3 -0.074 2.554
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 CG2 -0.075 3.475
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B VAL 331 CG2 -0.075 3.475
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ASN 342 HD21 -0.077 2.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 HD3 -0.078 2.558
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A PHE 292 HE2 -0.079 2.779
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ALA 181 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE1 -0.079 3.259
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D THR 180 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A PRO 376 HB3 -0.079 2.779
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH1 -0.080 2.705
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 C -0.081 3.481
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 O -0.081 2.561
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 298 NH2 -0.082 2.707
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B LYS 343 O -0.082 3.262
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ASN 342 ND2 -0.082 3.407
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 80 NH2 -0.083 2.708
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 CD -0.083 2.783
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH21 -0.083 2.783
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CD -0.084 3.409
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 O -0.085 3.265
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A PHE 344 CB -0.086 3.486
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 O -0.087 2.567
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 335 OE2 -0.087 2.567
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B GLU 335 OE2 -0.088 2.568
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 HH12 -0.088 2.788
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE1 -0.090 2.795
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PHE 344 CB -0.090 3.490
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A VAL 331 CG2 -0.091 3.491
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 CB -0.092 3.272
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 HG21 -0.092 2.792
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH22 -0.092 2.792
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 CG -0.093 3.273
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 CG -0.093 3.493
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NE -0.093 3.418
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 HG2 -0.094 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CD -0.096 2.796
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH1 -0.096 2.721
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NH1 -0.096 2.721
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B PHE 292 HE2 -0.097 2.797
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 HE21 -0.097 2.797
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 O -0.100 3.280
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CZ -0.100 2.800
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 298 NH2 -0.100 3.425
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 O -0.101 3.281
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 NH1 -0.101 3.426
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 188 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 376 CB -0.102 3.502
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 NE2 -0.102 3.427
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE2 -0.103 3.283
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CD2 -0.103 3.503
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B HIS 297 CD2 -0.104 3.504
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CZ -0.105 3.505
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 CB -0.106 3.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 298 NE -0.106 3.431
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 C -0.106 3.506
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 OE1 -0.106 2.811
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 298 NH2 -0.107 3.432
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C GLN 187 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A GLN 303 OE1 -0.107 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 CZ -0.108 3.508
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 O -0.109 2.589
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 CB -0.109 3.509
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 367 NE -0.110 2.735
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 220 CB -0.110 3.510
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 80 HH22 -0.111 2.811
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 220 CB -0.111 2.811
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B PHE 292 HE2 -0.112 2.812
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A LYS 343 O -0.112 3.292
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 CG -0.112 3.512
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PHE 292 CE2 -0.112 3.512
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 OH -0.112 3.312
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CB -0.113 2.813
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A PHE 292 CE2 -0.114 3.514
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 HG21 -0.116 2.816
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B GLU 287 CD -0.117 2.817
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C THR 180 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B GLU 374 OE2 -0.117 2.597
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 CZ -0.117 3.517
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D GLU 224 OE1 -0.118 2.823
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 NE -0.118 3.443
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 CG1 -0.118 3.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 CG2 -0.118 3.518
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 SG -0.119 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 CD1 -0.119 3.299
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 NZ -0.119 2.744
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 HB3 -0.120 2.820
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 CB -0.121 2.821
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A GLN 303 HE21 -0.122 2.822
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 HE -0.123 2.823
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 HE -0.123 2.123
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 OE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH1 -0.123 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 340 O -0.123 3.083
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 CD -0.123 3.523
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 HB2 -0.123 2.823
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 HG21 -0.124 2.824
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 NE2 -0.124 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CD2 -0.124 3.524
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CB -0.124 3.524
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NH1 -0.124 3.449
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CE1 -0.125 3.525
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 SD -0.125 2.907
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 CG2 -0.125 3.525
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B PHE 292 CE2 -0.126 3.526
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NH2 -0.126 3.451
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 HG2 -0.127 2.827
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 387 HE2 -0.128 2.828
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 188 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 376 CB -0.128 2.828
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH11 -0.129 2.829
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 CA -0.129 3.309
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CB -0.131 3.531
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CA -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 CG2 -0.132 2.832
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 HG2 -0.133 2.833
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 CG -0.133 3.533
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH11 -0.133 2.133
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NH2 -0.134 2.759
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 334 HH22 -0.134 2.834
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 CG2 -0.134 3.459
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 CA -0.135 2.835
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D MET 10 CE -0.135 3.535
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH1 -0.136 3.461
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 OE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH1 -0.136 2.841
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 O -0.136 3.316
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A GLU 335 OE2 -0.137 2.617
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 CG -0.137 3.317
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NH2 -0.138 3.463
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 CD -0.139 2.839
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 CG1 -0.139 3.539
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ARG 80 NH2 -0.139 3.464
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 CG -0.140 3.540
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 HB2 -0.140 2.840
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A VAL 331 HG21 -0.141 2.841
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 HB3 -0.141 2.141
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 334 NH2 -0.141 3.466
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 OE2 -0.141 3.321
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 CD -0.142 2.842
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 O -0.142 3.322
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 NH1 -0.142 2.767
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE1 -0.143 3.323
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B PRO 366 O -0.143 3.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B GLN 303 HB3 -0.143 2.843
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 HD3 -0.144 2.844
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A CYS 306 CB -0.144 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 HB3 -0.144 2.844
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 HA -0.145 2.625
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 CG2 -0.145 3.545
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 CG2 -0.145 2.845
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 HD2 -0.146 2.146
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 334 NH1 -0.146 2.851
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B PRO 308 CB -0.146 3.546
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PRO 308 CB -0.146 3.546
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 186 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 CD -0.148 3.328
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 NH2 -0.148 3.473
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 HA -0.149 2.849
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 CG -0.149 2.849
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 HA -0.149 2.849
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PHE 344 CG -0.149 2.849
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 146 CD1 -0.150 2.850
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 HG21 -0.151 2.851
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 HB3 -0.151 2.851
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 HB3 -0.152 2.852
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 HG13 -0.152 2.852
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ILE 371 HD11 -0.152 2.852
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 298 NH2 -0.152 3.477
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 HA -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 HB -0.152 2.852
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HD3 -0.153 2.153
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 186 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 CZ -0.153 2.853
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 CB -0.153 3.553
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B VAL 331 CG2 -0.153 2.853
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 O -0.153 2.633
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 HA -0.154 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HG2 -0.154 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D MET 10 HE1 -0.154 2.854
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 HG2 -0.154 2.854
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 CZ -0.154 2.854
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HG2 -0.155 2.855
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 HE2 -0.155 2.155
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CG -0.155 3.555
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C SER 186 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 NH1 -0.155 3.480
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B VAL 331 HG21 -0.155 2.855
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 HD3 -0.155 2.155
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 HG21 -0.155 2.855
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A LYS 343 O -0.156 3.336
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B PHE 299 N -0.156 3.481
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH22 -0.156 2.856
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A SER 370 CB -0.156 3.556
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A TRP 338 NE1 -0.157 2.782
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B ILE 325 HD13 -0.157 2.157
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 CD -0.158 3.558
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 CB -0.158 3.558
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 HA -0.158 2.858
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B ILE 325 CD1 -0.158 3.558
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 298 NH2 -0.158 2.783
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HG2 -0.159 2.859
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 NH1 -0.159 3.484
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B VAL 331 HG23 -0.159 2.859
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B LYS 343 HB2 -0.160 2.160
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HG2 -0.160 2.860
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 334 HH22 -0.161 2.861
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 OG -0.161 3.361
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 HA -0.162 2.862
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 HG3 -0.162 2.862
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 HD13 -0.162 2.862
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 HH12 -0.162 2.162
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 NZ -0.162 3.487
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B PHE 299 C -0.162 2.862
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 HG21 -0.163 2.863
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CB -0.164 3.564
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH12 -0.164 2.164
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 HB3 -0.165 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 CE -0.165 3.345
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 340 HG22 -0.165 2.865
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 C -0.166 2.866
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 NE -0.166 3.491
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E TYR 343 HA -0.166 2.166
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B GLN 303 CD -0.167 3.347
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C ALA 181 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B GLU 374 OE2 -0.167 2.872
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 HD3 -0.167 2.867
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HZ3 -0.168 2.868
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 C -0.169 2.869
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH12 -0.170 2.870
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH11 -0.170 2.170
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A TRP 338 HE1 -0.170 2.170
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 181 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B THR 300 CG2 -0.171 2.871
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A PHE 362 HE1 -0.171 2.171
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B GLU 335 OE2 -0.172 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 HB3 -0.172 2.872
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D THR 180 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A PRO 376 CB -0.172 3.572
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 367 HG2 -0.172 2.172
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ARG 157 CZ -0.172 3.572
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 CG1 -0.172 3.572
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 OG -0.172 3.372
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 HD13 -0.172 2.872
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 O -0.172 3.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HZ3 -0.172 2.872
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 HZ3 -0.173 2.173
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CD -0.173 2.873
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 CG -0.173 2.873
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C SER 186 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 NH1 -0.174 3.499
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 CG -0.174 2.874
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 NH1 -0.174 2.879
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 CG -0.174 3.574
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASN 342 HD22 -0.175 2.175
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 CB -0.175 3.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 OD1 -0.176 3.356
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HE -0.176 2.876
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 HG2 -0.176 2.876
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 CA -0.177 2.877
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 180 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CD -0.177 3.577
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 HD3 -0.178 2.178
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 HB3 -0.178 2.878
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 NH2 -0.178 2.883
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PRO 188 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E GLU 134 OE2 -0.178 3.358
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B PRO 308 CB -0.178 3.578
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PRO 366 O -0.178 2.658
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 CB -0.178 3.578
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ILE 371 HD11 -0.178 2.878
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ILE 291 HG22 -0.179 2.179
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NE -0.179 3.504
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 298 HH22 -0.179 2.179
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A PHE 344 CG -0.179 2.879
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CG -0.179 3.579
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CG -0.179 2.879
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 HG11 -0.180 2.180
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CB -0.180 2.880
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CD -0.180 2.880
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B PRO 366 O -0.180 2.660
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A PHE 344 HB3 -0.180 2.180
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 OE1 -0.181 3.361
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HD3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 NZ -0.181 2.806
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 298 NH2 -0.181 3.506
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 HB3 -0.182 2.882
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 NH2 -0.182 3.507
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 CB -0.182 2.882
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 NH1 -0.182 2.807
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HG2 -0.182 2.882
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HB3 -0.182 2.882
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 CA -0.183 3.583
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C THR 180 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B PRO 376 HB3 -0.184 2.884
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A PHE 362 HE1 -0.184 2.884
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 HG21 -0.185 2.885
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HB3 -0.185 2.885
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 HE -0.185 2.185
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A PHE 292 HE2 -0.186 2.886
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 HA -0.186 2.186
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH1 -0.187 2.812
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 CG1 -0.187 3.587
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HB3 -0.188 2.888
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PHE 344 HB3 -0.188 2.188
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A PHE 344 HB3 -0.188 2.888
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 CG -0.189 3.589
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 NZ -0.189 3.514
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B PHE 292 CE2 -0.189 3.589
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 298 HD3 -0.189 2.889
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 SG -0.189 3.671
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ALA 365 CB -0.190 2.890
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ILE 289 HG22 -0.190 2.890
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 379 HG2 -0.191 2.671
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 HD13 -0.192 2.892
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 HB2 -0.192 2.892
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 HD3 -0.193 2.893
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CG -0.193 3.593
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH12 -0.194 2.194
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 OH -0.194 2.774
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ILE 289 HG22 -0.194 2.894
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 HG11 -0.194 2.194
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B HIS 297 CD2 -0.195 2.895
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 292 CA -0.195 3.595
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 HB2 -0.196 2.196
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 HG21 -0.196 2.896
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 NE -0.197 2.822
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE1 -0.197 3.377
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D LEU 208 HD22 -0.197 2.197
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 367 CD -0.197 2.897
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 367 CZ -0.197 2.897
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B GLU 287 OE1 -0.198 3.378
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B TRP 288 O -0.198 2.678
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CB -0.198 3.598
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 367 O -0.199 2.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 CD2 -0.199 2.899
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D MET 10 CE -0.199 3.599
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 HG -0.199 2.899
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B GLN 303 CD -0.199 2.899
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ILE 289 HG22 -0.199 2.199
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE1 -0.200 2.280
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A PHE 292 HE2 -0.200 2.900
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 180 CG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 372 OE2 -0.200 3.380
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 O -0.201 2.681
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 CG -0.201 2.901
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B PRO 366 HB2 -0.201 2.901
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CG -0.202 3.602
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 CG -0.202 2.902
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 HG2 -0.203 2.203
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B THR 294 HB -0.203 2.203
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 187 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 HZ2 -0.204 2.204
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 CB -0.204 2.904
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 CA -0.204 3.604
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CB -0.204 3.604
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 CA -0.204 3.604
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CB -0.205 2.905
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 180 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CG -0.206 2.906
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B PRO 308 HB3 -0.207 2.907
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 HG21 -0.207 2.687
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 HB3 -0.208 2.208
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 HB2 -0.208 2.208
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 334 NH2 -0.208 2.833
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 367 CD -0.208 2.908
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ASN 182 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 374 OE2 -0.209 2.689
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 NH1 -0.210 2.915
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 CG -0.210 2.910
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 CG -0.210 2.910
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A TRP 338 NE1 -0.210 3.535
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 334 NH2 -0.211 2.836
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 HZ2 -0.211 2.211
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 292 HE2 -0.211 2.911
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 298 NE -0.211 2.916
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B GLU 287 CD -0.211 3.611
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH12 -0.211 2.911
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PHE 344 HB3 -0.212 2.912
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B LYS 343 O -0.212 3.392
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 CZ -0.213 2.913
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A PHE 362 CE1 -0.213 2.913
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A SER 370 HB3 -0.213 2.693
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 HA -0.214 2.214
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D GLN 187 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH1 -0.214 2.839
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 CG -0.214 2.914
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B THR 294 HB -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 180 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 372 OE2 -0.215 2.695
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B LYS 343 HB2 -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ILE 291 HG22 -0.215 2.915
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B LYS 343 O -0.215 2.695
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 HD3 -0.215 2.215
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ILE 371 HD11 -0.215 2.915
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B TRP 338 NE1 -0.216 2.841
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CE1 -0.217 3.617
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B HIS 297 HD2 -0.218 2.918
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 HD13 -0.218 2.918
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 HG23 -0.218 2.918
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D MET 10 SD -0.218 3.700
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 CZ -0.219 3.619
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A TRP 338 HE1 -0.219 2.919
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 367 CG -0.219 2.919
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CE2 -0.219 3.619
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CE2 -0.220 3.620
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 CB -0.220 3.620
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ILE 371 HD11 -0.220 2.920
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A SER 304 HA -0.221 2.921
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B PHE 292 CE2 -0.221 2.921
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A HIS 297 CB -0.221 3.621
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B PRO 366 HB2 -0.222 2.922
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 CB -0.223 2.923
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 SD -0.224 3.706
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 HG21 -0.224 2.924
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 C -0.225 3.625
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HB3 -0.226 2.926
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 186 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 NE -0.226 2.851
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH22 -0.226 2.926
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 334 NH1 -0.227 2.852
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B VAL 331 HG21 -0.227 2.927
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 NE -0.228 3.553
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 CD -0.228 3.628
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 HG2 -0.228 2.928
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 HG2 -0.228 2.928
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PRO 308 HB3 -0.229 2.929
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH1 -0.229 3.554
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 HD2 -0.229 2.709
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH22 -0.230 2.930
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B PHE 299 CA -0.231 3.631
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 CB -0.231 2.931
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D MET 10 SD -0.231 3.713
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 HD3 -0.231 2.931
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PHE 292 CE2 -0.232 2.932
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HG2 -0.232 2.932
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH22 -0.232 2.932
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 CB -0.232 3.557
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ASN 182 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 374 OE2 -0.233 3.413
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 HA -0.234 2.934
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 HG13 -0.234 2.234
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 334 NH2 -0.234 3.559
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 HD11 -0.235 2.935
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 HB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 ND2 -0.235 2.860
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 HD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 HG21 -0.235 2.235
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 367 HD3 -0.236 2.936
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PRO 308 HB3 -0.236 2.936
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 NE -0.237 3.562
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HE -0.237 2.937
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 CA -0.238 3.638
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 HG13 -0.238 2.238
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 HG13 -0.238 2.938
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B HIS 297 HD2 -0.238 2.938
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH22 -0.239 2.939
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 CG -0.239 2.939
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 O -0.239 2.719
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ALA 20 H -0.239 2.239
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 NZ -0.239 3.564
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 CB -0.240 3.640
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 HG3 -0.240 2.940
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B HIS 297 HD2 -0.241 2.241
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B ILE 340 CG2 -0.241 3.641
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 CG2 -0.242 3.642
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 367 HD3 -0.242 2.242
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 367 HD3 -0.242 2.942
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D TYR 213 HE2 -0.243 2.723
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HG2 -0.243 2.943
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH12 -0.243 2.943
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 HG22 -0.243 2.868
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B PRO 366 CB -0.243 3.643
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 CD -0.244 3.644
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 367 HD3 -0.244 2.244
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A CYS 306 HB2 -0.244 2.244
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CD2 -0.244 2.944
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 HD13 -0.245 2.245
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 NE -0.245 2.870
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 CD -0.245 2.945
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CA -0.246 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 CG2 -0.246 2.946
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 186 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 NH2 -0.246 2.871
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C SER 186 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 O -0.247 3.427
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 SG -0.247 3.729
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 HD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 CG2 -0.247 2.947
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 CG -0.248 2.948
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 C -0.248 2.948
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CG -0.248 2.948
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 298 CZ -0.249 2.949
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 367 O -0.249 2.729
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 298 HH22 -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 O -0.250 3.430
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 HD3 -0.250 2.950
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 NH2 -0.250 3.575
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B LYS 343 CE -0.250 3.430
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 CD -0.251 3.651
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CD -0.251 3.651
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 HG11 -0.252 2.252
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 O -0.252 2.732
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 HB2 -0.252 2.732
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HG3 -0.253 2.253
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CG -0.253 2.953
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASN 342 HD22 -0.253 2.953
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 HG2 -0.254 2.954
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 CD2 -0.254 3.654
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B TRP 288 O -0.254 3.434
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HG2 -0.254 2.954
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D THR 180 HG22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A PRO 376 CB -0.255 2.955
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HB3 -0.255 2.955
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 CD -0.255 3.655
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ILE 289 HG22 -0.255 2.255
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HB3 -0.256 2.256
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 367 CG -0.257 2.957
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASN 342 ND2 -0.258 3.583
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ASN 342 ND2 -0.258 2.883
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CB -0.258 3.658
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B PHE 299 N -0.259 3.584
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 NE2 -0.259 3.599
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH12 -0.259 2.339
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 CG2 -0.259 3.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 CD -0.259 3.439
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CG -0.261 3.661
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 HG1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 329 HG -0.261 2.261
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 CA -0.262 3.442
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CD -0.262 2.962
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A CYS 306 CB -0.262 3.662
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 298 HH22 -0.262 2.262
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH2 -0.263 3.588
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A VAL 331 HG23 -0.263 2.963
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 HG11 -0.265 2.965
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C SER 186 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 HH12 -0.265 2.965
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 188 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 376 HB2 -0.265 2.965
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 N -0.267 2.892
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HZ2 -0.267 2.967
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 298 CZ -0.267 3.667
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B SER 304 O -0.268 3.448
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 CD -0.268 2.968
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ASP 328 OD1 -0.268 2.973
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HE -0.268 2.268
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 HB3 -0.269 2.969
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CA -0.270 3.670
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 CZ -0.270 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 186 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 HZ2 -0.270 2.350
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 HD3 -0.272 2.972
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 367 HG2 -0.273 2.273
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 HD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 CG2 -0.273 2.973
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 CA -0.273 2.973
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 CD -0.274 3.674
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 HA -0.274 2.274
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 CB -0.274 3.674
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 NH2 -0.275 2.980
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A HIS 297 HB2 -0.275 2.975
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 O -0.276 3.456
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 334 HH22 -0.276 2.356
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 HD11 -0.276 2.276
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A GLN 303 NE2 -0.276 2.981
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B SER 304 HA -0.276 2.276
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CD -0.276 3.676
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 298 HH22 -0.277 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 NH1 -0.277 3.602
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CE2 -0.277 3.677
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NH2 -0.278 3.603
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C GLU 183 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LYS 151 HZ3 -0.278 2.358
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 HG23 -0.278 2.978
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HA -0.279 2.279
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A CYS 306 C -0.279 3.679
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 HZ2 -0.279 2.979
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NH2 -0.280 3.605
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 HD21 -0.280 2.980
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PHE 292 CE2 -0.280 3.680
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 HA -0.281 2.281
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 O -0.281 2.761
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 OD1 -0.281 2.761
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 C -0.282 2.982
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 334 HH22 -0.282 2.282
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 C -0.282 3.682
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/C PHE 185 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B GLU 287 OE1 -0.282 3.462
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A SER 304 HA -0.282 2.282
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HG3 -0.282 2.982
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 O -0.284 2.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 CG -0.284 3.684
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH11 -0.284 2.284
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 CG -0.284 3.684
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ALA 20 H -0.285 2.285
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A TRP 288 O -0.285 2.765
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 NE -0.286 3.611
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CE1 -0.286 2.986
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 HG11 -0.286 2.286
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 CA -0.287 3.687
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 HH11 -0.287 2.987
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CE2 -0.287 3.687
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A TRP 288 O -0.288 3.468
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 334 CG1 -0.288 2.988
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PRO 308 CB -0.288 3.688
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 HG2 -0.289 2.289
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 HB3 -0.289 2.989
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B GLN 303 HG2 -0.289 2.289
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 CB -0.290 3.690
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 HG12 -0.290 2.990
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 CE -0.290 3.470
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 NE -0.290 2.915
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HB3 -0.290 2.290
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CD2 -0.290 2.990
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B PRO 366 HB3 -0.290 2.990
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 HB3 -0.290 2.290
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A PHE 292 CZ -0.290 3.690
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 HE -0.291 2.991
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 367 HA -0.291 2.291
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 334 NH2 -0.291 3.616
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ALA 365 CB -0.291 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ILE 377 O -0.291 3.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 CB -0.291 2.991
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 298 HH22 -0.291 2.371
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 HD13 -0.292 2.772
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C SER 186 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 CE -0.292 3.472
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HD3 -0.292 2.992
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 C -0.293 3.693
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ASN 182 ND2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 374 CG -0.293 3.618
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D MET 10 HE1 -0.294 2.994
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 334 HH22 -0.294 2.994
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 CA -0.295 3.695
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 387 NE2 -0.295 3.620
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B GLN 303 CG -0.295 2.995
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 HH22 -0.296 2.996
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 334 HH22 -0.296 2.996
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E TYR 343 HA -0.298 2.998
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 HG3 -0.298 2.298
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 HG12 -0.298 2.298
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 HG2 -0.298 2.998
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 334 CG1 -0.299 3.699
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HG3 -0.300 3.000
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D THR 180 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A PRO 376 HB3 -0.300 3.000
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A SER 304 O -0.301 3.481
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 CB -0.301 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B THR 333 CG2 -0.301 3.001
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 CG2 -0.301 3.701
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 334 HG11 -0.301 3.001
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A PHE 292 CD2 -0.301 3.701
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 HG11 -0.302 3.002
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 186 CA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 HH12 -0.302 3.002
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 334 NH1 -0.303 3.628
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 HG22 -0.304 2.784
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 HA -0.305 2.305
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 CA -0.305 3.705
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 334 CZ -0.305 3.485
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 334 NH2 -0.305 2.930
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 334 NH2 -0.306 2.931
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A PHE 292 CE2 -0.306 3.706
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CG -0.306 3.706
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 HD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A VAL 331 HG21 -0.306 2.306
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C GLN 187 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 NZ -0.306 2.931
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C SER 186 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 CZ -0.307 3.007
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 CA -0.307 3.707
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 CG -0.307 3.007
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B PRO 308 HB3 -0.307 3.007
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 HD22 -0.308 2.308
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B CYS 306 C -0.308 3.708
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HZ3 -0.308 3.008
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH22 -0.308 3.008
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 CG -0.309 3.009
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH11 -0.309 3.009
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ASN 182 HD22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 374 CD -0.310 3.010
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 367 CD -0.311 3.711
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 185 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 HD11 -0.311 2.311
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D THR 180 HB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 HB2 -0.311 2.311
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 CD -0.312 3.712
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 367 HG2 -0.312 2.312
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH22 -0.312 3.012
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 SG -0.313 3.095
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CD1 -0.313 3.013
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 367 HA -0.314 2.939
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B PRO 366 O -0.314 2.794
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 HD22 -0.314 2.314
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HB3 -0.315 3.015
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH22 -0.315 3.015
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ALA 360 O -0.315 3.495
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH11 -0.315 3.015
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 367 HA -0.316 2.316
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 ND1 -0.317 3.657
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 HG2 -0.317 2.317
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 CD -0.317 3.717
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 CA -0.317 3.717
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 292 HA -0.317 3.017
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH22 -0.317 3.017
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 NE -0.318 3.643
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 181 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B THR 300 CG2 -0.318 3.718
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HG2 -0.319 3.019
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 292 CB -0.319 3.719
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A PHE 362 CE1 -0.319 3.719
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 CD -0.319 3.719
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 298 NH1 -0.320 2.945
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C THR 180 HG22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B PRO 376 HB3 -0.320 2.320
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 298 CZ -0.320 3.020
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 CZ -0.320 3.720
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PHE 296 CE2 -0.321 3.021
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B LEU 307 C -0.321 3.021
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A CYS 306 O -0.321 3.501
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 HD2 -0.321 2.321
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH22 -0.321 3.021
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 184 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 217 HZ3 -0.321 3.021
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 C -0.321 3.021
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 367 NE -0.322 3.647
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 146 HD13 -0.323 2.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CG -0.323 3.723
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 ND1 -0.323 3.663
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLN 187 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 CB -0.323 3.023
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 334 HH22 -0.323 2.323
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C THR 180 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A PRO 366 O -0.324 3.504
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 334 HH22 -0.324 3.024
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 NH2 -0.324 3.649
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 CD -0.324 3.724
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 HG22 -0.324 2.324
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PRO 366 O -0.324 2.804
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A CYS 306 HB2 -0.324 3.024
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ASN 182 HD21 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 OE1 -0.324 2.404
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 367 CD -0.324 3.724
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HG2 -0.324 3.024
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH22 -0.324 3.024
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 HE2 -0.325 3.025
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PRO 188 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HD2 -0.325 2.805
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 O -0.325 3.030
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CG -0.326 3.026
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 HA -0.326 2.326
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ASN 182 HD22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 374 OE2 -0.326 2.406
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B PHE 292 CD2 -0.326 3.726
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A SER 370 CB -0.326 3.026
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CD1 -0.327 3.727
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B PHE 292 CE1 -0.327 3.027
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NH1 -0.327 3.652
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 CA -0.327 3.027
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C SER 186 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B ARG 298 HE -0.327 2.327
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 HB3 -0.328 3.028
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B PRO 366 C -0.328 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D LYS 217 HD3 -0.328 3.028
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 NZ -0.329 3.654
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CA -0.329 3.729
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CD -0.330 3.655
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PHE 296 HE2 -0.330 2.330
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH11 -0.330 3.030
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 CG -0.331 3.031
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 CD fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH12 -0.331 3.031
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 HA -0.331 2.331
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 HD22 -0.332 3.032
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ILE 289 HG22 -0.332 3.032
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 HD22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE2 -0.332 2.412
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 O -0.332 2.812
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HG3 -0.332 3.032
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 OG -0.332 2.432
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NE -0.332 3.657
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A PHE 292 HE2 -0.333 3.033
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH2 -0.333 3.658
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B GLN 303 NE2 -0.334 3.039
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NH1 -0.335 3.660
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 334 HH22 -0.335 2.335
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A GLU 335 OE2 -0.335 3.515
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 334 NH2 -0.336 2.961
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 HH21 -0.336 2.336
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 CD -0.336 3.036
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 HD3 -0.337 3.037
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH21 -0.337 3.037
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 NZ -0.337 3.662
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 334 HH22 -0.337 2.417
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 367 HA -0.337 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D LYS 217 HD3 -0.337 2.337
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 185 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 NZ -0.337 2.962
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B HIS 297 CD2 -0.338 3.738
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B GLN 303 OE1 -0.339 3.299
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 HG3 -0.339 2.339
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NH2 -0.339 3.664
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A GLU 287 OE1 -0.339 2.819
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A VAL 331 HG21 -0.340 3.040
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 CB -0.340 3.740
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 HA -0.340 3.040
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 HG -0.341 3.041
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 CG -0.341 3.741
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C GLN 187 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH1 -0.341 3.666
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH2 -0.341 3.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 379 CB -0.341 3.521
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 CA -0.341 3.741
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NH2 -0.342 2.967
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A SER 304 CA -0.342 3.742
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 334 NH2 -0.342 3.667
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B SER 304 HA -0.342 3.042
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D ASN 182 ND2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A GLN 303 OE1 -0.342 3.047
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B ASN 342 O -0.342 3.522
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 NE -0.343 2.968
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 184 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B ILE 325 CG1 -0.343 3.043
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D THR 82 HG21 -0.343 3.043
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 HG2 -0.343 2.343
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B PHE 299 C -0.343 3.743
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HG3 -0.344 2.344
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C PHE 185 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HD2 -0.344 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B THR 333 CG2 -0.344 3.744
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A PHE 292 CD1 -0.344 3.744
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D THR 180 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A GLU 374 CD -0.344 3.044
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CD1 -0.345 3.745
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PRO 188 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PRO 376 HB3 -0.345 2.345
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/D CYS 214 SG -0.345 3.827
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ASN 182 ND2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B SER 370 HG -0.345 2.970
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B ILE 383 HG21 -0.345 2.345
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C THR 180 CG2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B PRO 376 CB -0.345 3.745
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 180 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 CG -0.346 3.746
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 CA -0.346 3.746
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 367 HA -0.346 2.346
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CB -0.346 3.746
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 298 CD -0.347 3.747
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH21 -0.347 3.047
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/C ASN 182 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B SER 370 HG -0.347 2.347
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 NH2 -0.347 3.672
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 HB3 -0.348 3.048
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 HG2 -0.348 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 HD2 -0.348 2.348
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 292 HB2 -0.348 3.048
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 CB -0.348 3.048
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 CG -0.348 3.748
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 CZ -0.348 3.748
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D THR 180 HG22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A PRO 376 HB3 -0.348 2.348
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CD -0.349 3.749
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLN 187 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B TRP 338 NE1 -0.349 3.599
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 298 NH2 -0.350 3.675
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 HG3 -0.350 3.050
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 292 HB2 -0.350 3.050
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D SER 329 HG -0.350 3.050
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A PHE 292 CE2 -0.350 3.750
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C THR 180 HG22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B PRO 376 CB -0.351 3.051
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B PRO 366 O -0.351 2.831
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 H fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 ND2 -0.351 2.976
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 CG -0.351 3.051
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CD -0.351 3.751
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B PHE 344 CB -0.351 3.051
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ALA 181 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/B THR 300 HG21 -0.352 2.352
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 HA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B ARG 361 NH1 -0.352 2.977
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ILE 289 HG22 -0.352 3.052
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 N -0.352 3.677
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 HD3 -0.352 3.052
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 334 HH12 -0.352 2.352
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A GLU 287 OE1 -0.352 3.532
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 HA -0.353 3.053
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 CB -0.353 3.753
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B VAL 331 CG2 -0.353 3.753
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 CE -0.353 3.053
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PRO 366 C -0.353 3.053
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 HG2 -0.353 3.053
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C THR 180 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE2 -0.353 3.533
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ASN 182 HD22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A GLU 374 CG -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 HG3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 HB -0.354 2.354
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ARG 334 HH21 -0.354 3.054
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C THR 180 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E ASN 149 ND2 -0.355 3.680
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B THR 333 HG22 -0.355 2.355
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 298 NH2 -0.355 3.060
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B VAL 331 CG2 -0.355 3.535
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CD2 -0.356 3.056
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A SER 370 OG -0.356 2.856
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 HA -0.356 3.056
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 367 O -0.356 3.536
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B THR 333 HG22 -0.357 3.057
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 220 HB2 -0.357 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 CD -0.357 3.757
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 HG13 -0.357 2.357
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B VAL 331 HG22 -0.358 2.358
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B THR 294 CB -0.358 3.058
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 HH21 -0.359 3.059
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C GLN 187 OE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH1 -0.359 3.064
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 HA fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 HG2 -0.359 2.359
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 CD -0.359 3.759
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 CB -0.360 3.760
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 298 HD3 -0.360 3.060
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 N -0.360 3.685
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B PHE 292 CE2 -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 367 HH21 -0.362 3.062
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B ALA 123 CB -0.362 3.062
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CA -0.362 3.762
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CD1 -0.362 3.762
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A VAL 331 HG21 -0.363 2.843
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A HIS 297 HD2 -0.363 3.063
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CZ -0.363 3.763
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B PRO 366 CB -0.363 3.763
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ASN 182 N fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B GLU 374 OE1 -0.363 3.068
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 HZ2 -0.363 2.443
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B CYS 306 HB2 -0.364 3.064
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C SER 186 CA fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 CZ -0.364 3.764
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 CA -0.364 3.764
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 146 CD1 -0.365 3.765
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 O -0.365 3.545
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 367 HA -0.365 2.990
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B HIS 297 HD2 -0.365 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 HB2 -0.365 3.065
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B ILE 325 HD13 -0.365 3.065
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 CG -0.366 3.766
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 HD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HG2 -0.366 2.366
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CG -0.366 3.766
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B ASN 342 ND2 -0.366 3.691
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 NH2 -0.366 3.691
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C GLN 187 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 334 NH1 -0.366 3.071
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 184 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 HB3 -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B PHE 296 CE2 -0.367 3.767
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 298 HD3 -0.367 2.367
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C GLU 183 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LYS 151 HZ3 -0.367 3.067
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ASN 182 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B GLU 374 OE2 -0.367 2.847
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 CG1 -0.367 3.067
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 184 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PRO 308 HB3 -0.367 3.067
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 220 HB2 -0.368 3.068
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 OE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 CZ -0.368 3.548
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 HA -0.369 3.069
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ILE 371 CG1 -0.369 3.769
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A ARG 334 CZ -0.369 3.549
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C THR 180 O fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B GLU 374 OE2 -0.369 3.329
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ILE 371 CD1 -0.369 3.769
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 367 HG3 -0.369 3.069
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B ARG 367 CG -0.370 3.070
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D THR 180 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 HB2 -0.370 3.070
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C PHE 185 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/B GLN 341 C -0.370 3.770
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 NH1 -0.370 3.695
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A GLN 303 HG2 -0.370 2.370
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 334 HH22 -0.370 3.070
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/A ARG 361 CD -0.371 3.071
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D PHE 185 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A PHE 292 CE2 -0.371 3.771
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B THR 333 C -0.371 3.071
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E ASP 292 N -0.371 3.696
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 CB -0.372 3.072
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/A ARG 298 HH21 -0.372 3.072
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 298 HG2 -0.372 3.072
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 298 NH2 -0.372 2.997
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E ARG 342 O -0.372 2.852
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/A PHE 344 HB3 -0.373 2.373
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 HB3 -0.373 3.073
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 CD -0.373 3.773
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E ILE 2 C -0.373 3.773
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 HB2 -0.373 2.373
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH22 -0.374 3.074
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C ASN 182 ND2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ASP 328 CG -0.374 3.699
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B SER 370 O -0.374 3.554
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/A CYS 306 C -0.374 3.774
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 OG -0.375 3.100
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 298 HH22 -0.375 3.075
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/D ALA 20 N -0.375 3.000
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 334 CZ -0.375 3.555
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/A ARG 298 HB3 -0.375 2.375
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 HG13 -0.375 2.375
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 CD2 -0.375 3.775
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E VAL 334 HG11 -0.376 3.076
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B VAL 331 HG11 -0.376 3.076
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B PHE 292 CZ -0.376 3.776
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B PHE 344 CG -0.376 3.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E LEU 141 HD22 -0.376 2.856
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ALA 181 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D ARG 220 HB3 -0.376 3.076
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CG -0.377 3.077
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C THR 180 HG22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B GLU 372 HG2 -0.377 2.377
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 N -0.377 3.702
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B SER 304 C -0.377 3.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D CYS 214 HA -0.377 3.077
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 298 CD -0.377 3.777
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/C PHE 185 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B GLU 287 OE1 -0.377 2.857
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 CB -0.378 3.778
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/D GLN 187 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/A ARG 334 NH1 -0.378 3.703
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/D ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/A VAL 331 HG23 -0.378 2.858
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 CD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B ARG 298 N -0.378 3.703
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 367 HG2 -0.378 3.078
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 298 HH21 -0.378 2.378
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C ASN 182 HD21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B VAL 331 HG22 -0.379 2.379
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 184 CE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D ARG 122 CB -0.379 3.779
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B TRP 338 NE1 -0.380 3.705
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 CD -0.380 3.780
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/A ARG 334 HH22 -0.381 3.081
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 334 HH12 -0.381 2.461
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ASN 182 HD22 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B GLU 374 OE2 -0.381 2.461
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/D LYS 221 HE2 -0.382 2.862
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 HA -0.382 2.382
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/C SER 186 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/D LEU 204 CD1 -0.382 3.782
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E TYR 288 HE1 -0.383 3.083
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HG2 -0.383 2.383
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C PHE 185 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/A ARG 334 NH2 -0.384 3.709
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C PHE 184 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B ARG 298 NE -0.385 3.710
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 CG1 -0.385 3.085
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 CG -0.386 3.786
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B ARG 334 NH2 -0.386 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C PHE 185 HZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B ARG 298 NE -0.386 3.011
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A ILE 371 CG1 -0.386 3.086
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CG fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 HH22 -0.386 3.086
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D PHE 184 HD2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B ARG 298 HH21 -0.387 2.387
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A HIS 297 HB2 -0.387 3.087
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D ALA 181 N fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A SER 370 HB2 -0.387 3.012
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 184 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E TYR 343 HD1 -0.387 3.087
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 O fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 298 NE -0.388 3.093
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PRO 188 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 221 HZ3 -0.388 3.088
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B THR 300 HG23 -0.389 2.389
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B PRO 308 CA -0.389 3.089
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B ARG 361 HD3 -0.389 2.389
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A ARG 367 CZ -0.389 3.789
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLN 187 HE22 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B TRP 338 NE1 -0.390 3.015
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/C ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B GLN 303 CB -0.390 3.790
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C ASN 182 C fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 HZ2 -0.390 3.090
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B ARG 367 CG -0.391 3.791
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/C PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/A ARG 298 HG2 -0.391 3.091
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B PRO 366 O -0.392 2.872
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D PHE 184 CE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A ARG 298 CZ -0.392 3.792
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/C ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/A CYS 306 O -0.393 2.873
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D ALA 181 CB fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B SER 304 CA -0.394 3.794
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ALA 181 C fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 HB2 -0.394 3.094
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D TYR 213 CE2 -0.394 3.094
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C PHE 184 CD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ARG 334 NH2 -0.394 3.719
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 184 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 298 O -0.395 3.575
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C PHE 184 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B ARG 298 NH2 -0.395 3.020
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C PHE 185 CE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 CB -0.395 3.795
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B ARG 367 HE -0.395 2.395
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D PHE 185 HB3 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B HIS 297 CB -0.396 3.096
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/D PHE 185 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B GLN 303 NE2 -0.396 3.021
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C ASN 182 OD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B SER 370 HA -0.396 2.876
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/C PHE 185 HE1 fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/A PHE 292 CE2 -0.397 3.097
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D PHE 185 CZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B ARG 367 CG -0.397 3.797
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C PHE 185 CD1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B ARG 367 HD3 -0.397 3.097
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/C PHE 185 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/D LYS 217 CB -0.397 3.797
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/D PHE 185 HD1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/A VAL 331 CG2 -0.397 3.097
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/D ALA 181 HB1 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/A PRO 366 C -0.398 3.098
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B ILE 371 CG1 -0.398 3.098
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C GLN 187 NE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 297 HD1 -0.398 3.023
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/C PHE 185 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/A PRO 308 HA -0.399 2.399
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/B HIS 387 HE2 -0.399 2.399
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/C PHE 184 HZ fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E TYR 343 CA -0.400 3.100
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D ALA 181 H fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B ARG 367 CA -0.400 3.100
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/C ALA 181 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B MET 218 O -0.400 2.880
1241 contacts
> ui tool show Log
> hide sel cartoons
> select sequence TANEFFSQP
6075 atoms, 6165 bonds, 405 residues, 30 models selected
> hide sel cartoons
> select /A,B:298
1440 atoms, 1380 bonds, 60 residues, 30 models selected
> select /A,B:298,334
2880 atoms, 2760 bonds, 120 residues, 30 models selected
> show sel atoms
> style sel stick
Changed 2880 atom styles
> contacts sel interModel false intraMol false reveal true select true
816 contacts
> sequence chain
> #1/A,B#2/A,B#3/A,B#4/A,B#5/B#7/B#8/B#9/B#10/B#11/B#12/A,B#13/A,B#14/A,B#15/A,B#16/A,B#17/A,B#18/A,B#19/B#20/A,B#21/A,B#23/A,B#25/A,B#26/A,B#28/A,B#31/B
Alignment identifier is 6
> sequence chain
> #1/C#2/C#3/C#4/C#5/C#7/C#8/C#9/C#10/C#12/C,D#13/C,D#14/C,D#15/C,D#16/C,D#17/C,D#18/C,D#19/D#20/C,D#21/C,D#23/C,D#25/C,D#26/C,D
Alignment identifier is 7
> sequence chain #1/D#2/D#3/D#4/D#9/D#10/D#11/D#28/D#31/D
Alignment identifier is 8
> sequence chain #15/E#18/E#28/E
Alignment identifier is 9
> select up
4373 atoms, 4233 bonds, 225 residues, 34 models selected
> select down
825 atoms, 225 residues, 34 models selected
> undo
> hide sel atoms
> select /A,B:298,334
2880 atoms, 2760 bonds, 120 residues, 30 models selected
> show sel atoms
> contacts sel restrict /C,D:181-192 interModel false intraMol false reveal
> true select true
411 contacts
> select up
2126 atoms, 2071 bonds, 106 residues, 24 models selected
> hide sel atoms
> show sel cartoons
> select up
23551 atoms, 23894 bonds, 1550 residues, 24 models selected
> select down
2126 atoms, 2071 bonds, 106 residues, 24 models selected
> select #1/C:184
20 atoms, 20 bonds, 1 residue, 1 model selected
> select #1/C:184-191 #2/C:184-191 #3/C:184-191 #4/C:184-191 #5/C:184-191
> #12/C:184-191 #13/C:184-191 #14/C:184-191 #15/C:184-191 #16/C:184-191
> #17/D:184-191 #18/D:184-191 #19/D:184-191 #20/D:184-191 #21/D:184-191
1995 atoms, 2040 bonds, 120 residues, 15 models selected
Clustal Omega Alignment [ID: 3] region chain C..chain D [184-191] RMSD: 18.483
> select clear
> select /A,B:298,334
2880 atoms, 2760 bonds, 120 residues, 30 models selected
> contacts sel restrict /C,D:181-192 interModel false intraMol false reveal
> true select true
411 contacts
> select up
2126 atoms, 2071 bonds, 106 residues, 24 models selected
> sequence align /C,D & sel
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: 1UMEHND0A19HRENV
Webservices job finished: 1UMEHND0A19HRENV
> sequence header 3 rmsd show
Chains used in RMSD evaluation for alignment 3:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/C,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 3
> sequence header 3 conservation hide
Hiding conservation header for alignment 3
> name frozen fsq sel
Drag select of 1628 atoms, 1949 residues, 1260 bonds, 232 pseudobonds
> select intersect fsq
974 atoms, 514 bonds, 226 pseudobonds, 47 residues, 15 models selected
> sequence align /C,D & sel
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: 17ZXTT4YN72DFQ0J
Webservices job finished: 17ZXTT4YN72DFQ0J
> sequence header 3 rmsd show
Chains used in RMSD evaluation for alignment 3:
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/C,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/D,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/D
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 3
> sequence header 3 conservation hide
Hiding conservation header for alignment 3
> select #12/C:177
14 atoms, 14 bonds, 1 residue, 1 model selected
> select #12/C:177-213 #13/C:177-213 #14/C:177-213 #16/C:177-213 #18/D:177-213
> #21/D:177-213 #23/D:177-213 #25/D:177-213 #26/D:177-213
4743 atoms, 4815 bonds, 333 residues, 9 models selected
Clustal Omega Alignment [ID: 3] region chain C..chain D [177-213] RMSD: 20.743
> hide sel atoms
> show sel cartoons
> hide sel cartoons
> select fsq
43575 atoms, 2071 bonds, 411 pseudobonds, 2785 residues, 18 models selected
> hide sel atoms
> hide sel cartoons
> select clear
> select /A,B:298,334,367
4320 atoms, 4140 bonds, 180 residues, 30 models selected
> show sel atoms
> select up
30760 atoms, 30917 bonds, 1818 residues, 30 models selected
> style sel stick
Changed 30760 atom styles
> hide sel atoms
> color sel #ffbebeff
[Repeated 1 time(s)]
> color sel #f0bebeff
> color sel #c9bebeff
> color sel #b3bebeff
> color sel #9bbebeff
> color sel #8cbebeff
> color sel #69bebeff
> color sel #77bebeff
> color sel #59bebeff
> color sel #5abebeff
> select clear
> undo
[Repeated 1 time(s)]
> select clear
> undo
> color sel bychain
> select clear
> select #11/A:341
17 atoms, 16 bonds, 1 residue, 1 model selected
> select up
226 atoms, 227 bonds, 13 residues, 1 model selected
> select up
6840 atoms, 6905 bonds, 425 residues, 1 model selected
> select down
226 atoms, 227 bonds, 13 residues, 1 model selected
> select down
17 atoms, 16 bonds, 1 residue, 1 model selected
> select clear
> select #11/A:298
24 atoms, 23 bonds, 1 residue, 1 model selected
> select up
106 atoms, 107 bonds, 6 residues, 1 model selected
> select up
6840 atoms, 6905 bonds, 425 residues, 1 model selected
> color sel bychain
> color sel #ff8888ff
> select clear
> select /A,B
410508 atoms, 414408 bonds, 103 pseudobonds, 25500 residues, 31 models
selected
> color (#!1-5,7-31 & sel) #fcb2b2ff
> select clear
> undo
> redo
> select clear
> save /Users/pcarlton/Desktop/wow2.cxs
> select clear
Drag select of 21 atoms, 12429 residues, 4 pseudobonds
> select intersect /E
90925 atoms, 5534 residues, 30 models selected
> contacts sel restrict /A,B select true
182431 contacts
> select clear
Drag select of 40 atoms, 12895 residues, 1307 pseudobonds
> select intersect /E
90925 atoms, 5534 residues, 30 models selected
> contacts sel restrict /A,B interModel false intraMol false select true
4077 contacts
> select intersect /A,B
2350 atoms, 730 residues, 30 models selected
> color modify sel lightness - 10
[Repeated 1 time(s)]
> select clear
Drag select of 41 atoms, 16525 residues, 47 pseudobonds
> select intersect /E
90925 atoms, 5534 residues, 30 models selected
> contacts sel restrict /A,B interModel false intraMol false select true
4077 contacts
> select clear
Drag select of 8388 residues, 23 pseudobonds
> select intersect /E
90925 atoms, 5534 residues, 30 models selected
> contacts sel restrict /A,B interModel false intraMol false select true
4077 contacts
> name frozen spod3 sel
> sequence align sel
Alignment identifier is 7
Showing conservation header ("seq_conservation" residue attribute) for
alignment 7
Webservices job id: EZ1DFAQSI5709I55
Webservices job finished: EZ1DFAQSI5709I55
> select intersect /A,B
2350 atoms, 730 residues, 30 models selected
> sequence align sel
Alignment identifier is 7
Showing conservation header ("seq_conservation" residue attribute) for
alignment 7
Webservices job id: RX38MIJTCK3ZALTH
Webservices job finished: RX38MIJTCK3ZALTH
> sequence header 7 rmsd show
Chains used in RMSD evaluation for alignment 7:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/A,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/A,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/B,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/B,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/B
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 7
> sequence header 7 conservation hide
Hiding conservation header for alignment 7
> select clear
Drag select of 20 residues
> changechains
Missing or invalid "fromIds" argument: Expected a text string
> ui tool show "Change Chain IDs"
> select up
1195 atoms, 1215 bonds, 65 residues, 20 models selected
> select up
136838 atoms, 138138 bonds, 8500 residues, 20 models selected
> changechains sel spo11a
Chain IDs of 8500 residues changed
Drag select of 150 residues
> select up
4482 atoms, 4502 bonds, 258 residues, 20 models selected
> select up
136840 atoms, 138140 bonds, 8500 residues, 20 models selected
> ui tool show "Change Chain IDs"
> changechains sel spo11b
Chain IDs of 8500 residues changed
> select clear
[Repeated 1 time(s)]Drag select of 6453 residues, 23 pseudobonds
> select intersect /E
90925 atoms, 5534 residues, 30 models selected
> contacts sel restrict /spo11a interModel false intraMol false select true
1348 contacts
> color modify sel yellow + 10 ribbons
Missing or invalid "adjuster" argument: Should be one of 'blackness', 'blue',
'contrast', 'green', 'hue', 'lightness', 'red', 'saturation', or 'whiteness'
> color modify sel green + 10 ribbons
> select intersect /spo11a
800 atoms, 282 residues, 20 models selected
> color modify sel green + 10 ribbons
[Repeated 1 time(s)]
> sequence align sel
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: 8RAKAEDPIR2JKXFE
Webservices job finished: 8RAKAEDPIR2JKXFE
> select clear
> select spod3
4374 atoms, 2386 bonds, 1348 pseudobonds, 1377 residues, 31 models selected
> select intersect /spo11b
795 atoms, 463 bonds, 210 residues, 20 models selected
> select clear
Drag select of 6992 residues, 23 pseudobonds
> select intersect /E
90925 atoms, 5534 residues, 30 models selected
> contacts sel restrict /spo11b interModel false intraMol false select true
1362 contacts
> select intersect /spo11b
795 atoms, 210 residues, 20 models selected
> name frozen spoBdsb3 sel
> sequence align sel
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: 3K8IBAFK03JN9UFO
Webservices job finished: 3K8IBAFK03JN9UFO
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/spo11b
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> sequence header 1 rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/spo11a
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header 1 conservation hide
Hiding conservation header for alignment 1
> select spod3
4374 atoms, 2386 bonds, 1362 pseudobonds, 1377 residues, 31 models selected
> close #6,32
> select intersect /spo11a,spo11b
1595 atoms, 861 bonds, 492 residues, 20 models selected
> select #22-31/A
68418 atoms, 69068 bonds, 4250 residues, 10 models selected
> select #22-31/A:39-369
54408 atoms, 54918 bonds, 3310 residues, 10 models selected
> show sel cartoons
> select #22-31/B:39-369
54402 atoms, 54912 bonds, 3310 residues, 10 models selected
> show sel cartoons
> hide sel cartoons
> show sel cartoons
> select #22-31/B
68412 atoms, 69062 bonds, 4250 residues, 10 models selected
> changechains sel spo11b
Chain IDs of 4250 residues changed
> select #22-31/A
68418 atoms, 69068 bonds, 4250 residues, 10 models selected
> changechains sel spo11a
Chain IDs of 4250 residues changed
> select #22-31/B:39-369
Nothing selected
> select #22-31/spo11b:39-369
54402 atoms, 54912 bonds, 3310 residues, 10 models selected
> select #22-31/E:158-345
30899 atoms, 31229 bonds, 1880 residues, 10 models selected
> show sel cartoons
> contacts sel restrict /spo11b interModel false intraMol false select true
700 contacts
> select intersect /spo11b
377 atoms, 104 residues, 10 models selected
> select clear
> select /E:158-345
92698 atoms, 93688 bonds, 5640 residues, 30 models selected
> contacts sel restrict /spo11a,spo11b interModel false intraMol false select
> true
4135 contacts
> select intersect /spo11a,spo11b
2386 atoms, 735 residues, 30 models selected
> name frozen spoABdsb3 sel
> select intersect /spo11a
1214 atoms, 421 residues, 30 models selected
> sequence align sel
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: MF5S6WL4ZC4ISEXV
Webservices job finished: MF5S6WL4ZC4ISEXV
> sequence header rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/spo11a
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header conservation hide
Hiding conservation header for alignment 1
> select spoABdsb3
2386 atoms, 1281 bonds, 735 residues, 30 models selected
> select intersect /spo11b
1172 atoms, 664 bonds, 314 residues, 30 models selected
> sequence align sel
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: SSN08G01AZAJM26R
Webservices job finished: SSN08G01AZAJM26R
> sequence header 2 rmsd show
Chains used in RMSD evaluation for alignment 2:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/spo11b
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 2
> sequence header 2 conservation hide
Hiding conservation header for alignment 2
> select spoABdsb3
2386 atoms, 1281 bonds, 735 residues, 30 models selected
> select #1/spo11b:164 #2/spo11b:164 #3/spo11b:164 #4/spo11b:164 #5/spo11b:164
> #7/spo11b:164 #8/spo11b:164 #9/spo11b:164 #10/spo11b:164 #11/spo11b:164
> #12/spo11b:164 #13/spo11b:164 #14/spo11b:164 #15/spo11b:164 #16/spo11b:164
> #17/spo11b:164 #18/spo11b:164 #19/spo11b:164 #20/spo11b:164 #21/spo11b:164
> #22/spo11b:164 #23/spo11b:164 #24/spo11b:164 #25/spo11b:164 #26/spo11b:164
> #27/spo11b:164 #28/spo11b:164 #29/spo11b:164 #30/spo11b:164 #31/spo11b:164
420 atoms, 390 bonds, 30 residues, 30 models selected
> undo
Drag select of 321 residues
> select clear
> select #27-31/C,D:1-140
22656 atoms, 22876 bonds, 1400 residues, 5 models selected
> show sel cartoons
> select clear
Drag select of 5 residues
> select add #30/D:26
105 atoms, 10 bonds, 6 residues, 2 models selected
> select add #27/D:80
129 atoms, 33 bonds, 7 residues, 3 models selected
> select up
933 atoms, 938 bonds, 56 residues, 3 models selected
> select up
13224 atoms, 13356 bonds, 840 residues, 3 models selected
> hide sel cartoons
> select #28/D:28
19 atoms, 18 bonds, 1 residue, 1 model selected
> select up
96 atoms, 95 bonds, 6 residues, 1 model selected
> select up
4406 atoms, 4450 bonds, 280 residues, 1 model selected
> hide sel cartoons
Drag select of 362 residues
> select clear
Drag select of 444 residues
> select clear
> select #12-26/C,D:1-140
68575 atoms, 69205 bonds, 4200 residues, 15 models selected
> show sel cartoons
> select clear
Drag select of 583 residues
> sequence align sel
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: ZACVHJE4LH5NP5AN
Webservices job finished: ZACVHJE4LH5NP5AN
> select up
15838 atoms, 15885 bonds, 979 residues, 20 models selected
> select up
119210 atoms, 120650 bonds, 7700 residues, 20 models selected
> select up
694288 atoms, 706462 bonds, 41255 residues, 20 models selected
> select down
119210 atoms, 120650 bonds, 7700 residues, 20 models selected
Drag select of 725 residues
Drag select of 1409 residues
> select /C:1-140
68572 atoms, 69202 bonds, 4200 residues, 30 models selected
> show sel cartoons
> select clear
> select /D:1-140
67969 atoms, 68629 bonds, 4200 residues, 30 models selected
> show sel cartoons
> select clear
> select #11/D:80
24 atoms, 23 bonds, 1 residue, 1 model selected
> select #11/D:131
14 atoms, 13 bonds, 1 residue, 1 model selected
> select add #11/D:79
34 atoms, 33 bonds, 2 residues, 1 model selected
> select add #31/D:70
51 atoms, 49 bonds, 3 residues, 2 models selected
> select add #9/D:86
65 atoms, 62 bonds, 4 residues, 3 models selected
> select add #27/D:11
86 atoms, 83 bonds, 5 residues, 4 models selected
> select up
578 atoms, 581 bonds, 34 residues, 4 models selected
> select up
17629 atoms, 17805 bonds, 1120 residues, 4 models selected
> hide sel cartoons
> select #30/D:91
20 atoms, 20 bonds, 1 residue, 1 model selected
> select add #8/D:38
36 atoms, 35 bonds, 2 residues, 2 models selected
> select add #2/D:138
47 atoms, 45 bonds, 3 residues, 3 models selected
> select subtract #2/D:138
36 atoms, 35 bonds, 2 residues, 2 models selected
> select add #8/D:130
50 atoms, 48 bonds, 3 residues, 2 models selected
> select up
437 atoms, 439 bonds, 26 residues, 2 models selected
> select up
8816 atoms, 8904 bonds, 560 residues, 2 models selected
> hide sel cartoons
Drag select of 9 residues
> select up
9287 atoms, 9379 bonds, 586 residues, 3 models selected
> select up
13223 atoms, 13355 bonds, 840 residues, 3 models selected
> hide sel cartoons
> select #28/D:12
21 atoms, 21 bonds, 1 residue, 1 model selected
> select up
81 atoms, 82 bonds, 4 residues, 1 model selected
> select up
4406 atoms, 4450 bonds, 280 residues, 1 model selected
> select clear
> select sequence MSARG
1063 atoms, 1048 bonds, 75 residues, 15 models selected
> select up
1709 atoms, 1694 bonds, 107 residues, 15 models selected
> select up
66112 atoms, 66772 bonds, 4200 residues, 15 models selected
> color sel purple
> select clear
> select #28/D:37
10 atoms, 9 bonds, 1 residue, 1 model selected
> select up
98 atoms, 98 bonds, 6 residues, 1 model selected
> select up
4406 atoms, 4450 bonds, 280 residues, 1 model selected
> hide sel cartoons
Drag select of 454 residues
> select up
12851 atoms, 12973 bonds, 796 residues, 6 models selected
> select up
26446 atoms, 26710 bonds, 1680 residues, 6 models selected
> select /D:110-290 & sel
15792 atoms, 15954 bonds, 1026 residues, 6 models selected
> color sel orange
> color sel purple
> hide sel cartoons
Drag select of 277 residues
> select #29/D:97
11 atoms, 10 bonds, 1 residue, 1 model selected
Drag select of 95 residues
> select up
2922 atoms, 2950 bonds, 171 residues, 25 models selected
> select up
119202 atoms, 120642 bonds, 7700 residues, 25 models selected
> sequence align sel
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: R7YGLSAUBMVSN878
Webservices job finished: R7YGLSAUBMVSN878
> ui tool show "Change Chain IDs"
> changechains sel dsb1B
Chain IDs of 7700 residues changed
> select clear
Drag select of 872 residues
> select up
23948 atoms, 24075 bonds, 1438 residues, 30 models selected
> select up
149016 atoms, 150816 bonds, 9625 residues, 30 models selected
> sequence align sel
Alignment identifier is 3
Showing conservation header ("seq_conservation" residue attribute) for
alignment 3
Webservices job id: IAMG35WHQ59621BU
Webservices job finished: IAMG35WHQ59621BU
> ui tool show "Change Chain IDs"
> changechains sel dsb1A
Chain IDs of 9625 residues changed
> select /dsb1B
119202 atoms, 120642 bonds, 7700 residues, 20 models selected
> select /dsb1A
149016 atoms, 150816 bonds, 9625 residues, 25 models selected
> select clear
> select sequence MSARG
1063 atoms, 1048 bonds, 75 residues, 15 models selected
> select up
1709 atoms, 1694 bonds, 107 residues, 15 models selected
> select up
66112 atoms, 66772 bonds, 4200 residues, 15 models selected
> select up
503265 atoms, 512078 bonds, 29760 residues, 15 models selected
> select down
66112 atoms, 66772 bonds, 4200 residues, 25 models selected
> select clear
> ui tool show Log
> select sequence MSARG
1063 atoms, 1048 bonds, 75 residues, 15 models selected
> select up
1709 atoms, 1694 bonds, 107 residues, 15 models selected
> select up
66112 atoms, 66772 bonds, 4200 residues, 15 models selected
> changechains sel dsb2
Chain IDs of 4200 residues changed
> select clear
> save /Users/pcarlton/Desktop/wow3.cxs
> select dsb2 dsb1A dsb1B
Expected an objects specifier or a keyword
> select /dsb2 /dsb1A /dsb1B
334330 atoms, 338231 bonds, 21525 residues, 30 models selected
> select down
334330 atoms, 338231 bonds, 21525 residues, 40 models selected
> select up
1029801 atoms, 1047852 bonds, 61095 residues, 40 models selected
> select down
334330 atoms, 338231 bonds, 21525 residues, 40 models selected
> select down
334330 atoms, 338231 bonds, 21525 residues, 40 models selected
> select clear
> select /dsb1A
149016 atoms, 150816 bonds, 9625 residues, 25 models selected
> color (#!1-5,12-31 & sel) cornflower blue
> select /dsb1B
119202 atoms, 120642 bonds, 7700 residues, 20 models selected
> color (#!7-26 & sel) medium blue
> color (#!7-26 & sel) cornflower blue
> select clear
> select #1,2,3,4,5,7,8,9,10,11,27,28,29,30,31/dsb1A
59608 atoms, 60328 bonds, 3850 residues, 10 models selected
> color (#!1-5,27-31 & sel) cyan
> select #1,2,3,4,5,7,8,9,10,11,27,28,29,30,31/dsb2
66112 atoms, 66772 bonds, 4200 residues, 15 models selected
> select #1,2,3,4,5,7,8,9,10,11,27,28,29,30,31/dsb1B
29804 atoms, 30164 bonds, 1925 residues, 5 models selected
> color (#!7-11 & sel) cyan
> select #12,13,14,15,16,17,18,19,20,21,22,23,24,25,26/dsb1A
89408 atoms, 90488 bonds, 5775 residues, 15 models selected
> color sel light sea green
> color sel medium blue
> color sel #fcb2b3ff
> color sel #b2cefcff
[Repeated 1 time(s)]
> color sel #d9e6fcff
> color sel #e2ecfcff
> color sel #fcfcfcff
> color sel #dce8fcff
> color sel #a0c3fcff
> color sel #9dc1fcff
> color sel #9cc1fcff
> color sel #9cc0fbff
> color sel #6d87b0ff
> color sel #6a83abff
> color sel #6a82aaff
> color sel #718cb7ff
> color sel #728db8ff
> color sel #728db9ff
[Repeated 1 time(s)]
> select #12,13,14,15,16,17,18,19,20,21,22,23,24,25,26/dsb1B
89398 atoms, 90478 bonds, 5775 residues, 15 models selected
> color sel #a8c8fcff
[Repeated 1 time(s)]
> color sel #9bb9e9ff
> color sel #98b5e4ff
> color sel #8ba6d1ff
[Repeated 1 time(s)]
> color sel #8ca6d1ff
> select clear
> save /Users/pcarlton/Desktop/wow3.cxs
> contacts /dsb1A restrict /spo11B interModel false intraMol false select true
No contacts
> contacts /dsb1B restrict /spo11A interModel false intraMol false select true
No contacts
> contacts /dsb1B restrict /spo11B interModel false intraMol false select true
No contacts
> contacts /dsb1B restrict /spo11aB interModel false intraMol false select
> true
No contacts
> contacts /dsb1B restrict /spo11a interModel false intraMol false select true
2018 contacts
> select clear
Drag select of 6610 residues
> select intersect dsb1B
Missing or invalid "objects" argument: invalid objects specifier
> select intersect /dsb1B
34287 atoms, 2100 residues, 15 models selected
> contacts sel restrict /spo11a select true interModel false intraMol false
538 contacts
> sequence chain
> #14/spo11a#16/spo11a#17/spo11a#18/spo11a#19/spo11a#20/spo11a#21/spo11a#22/spo11a#23/spo11a#24/spo11a#25/spo11a#26/spo11a
Alignment identifier is 1
> sequence chain
> #14/dsb1B#16/dsb1B#17/dsb1B#18/dsb1B#19/dsb1B#20/dsb1B#21/dsb1B#22/dsb1B#23/dsb1B#24/dsb1B#25/dsb1B#26/dsb1B
Alignment identifier is 2
> select up
3479 atoms, 3342 bonds, 196 residues, 12 models selected
> select down
570 atoms, 196 residues, 12 models selected
> select #14/spo11a:406 #16/spo11a:406 #17/spo11a:406 #18/spo11a:406
> #19/spo11a:406 #20/spo11a:406 #21/spo11a:406 #22/spo11a:406 #23/spo11a:406
> #24/spo11a:406 #25/spo11a:406 #26/spo11a:406
144 atoms, 132 bonds, 12 residues, 12 models selected
> select #14/spo11a:406-425 #16/spo11a:406-425 #17/spo11a:406-425
> #18/spo11a:406-425 #19/spo11a:406-425 #20/spo11a:406-425 #21/spo11a:406-425
> #22/spo11a:406-425 #23/spo11a:406-425 #24/spo11a:406-425 #25/spo11a:406-425
> #26/spo11a:406-425
3576 atoms, 3588 bonds, 240 residues, 12 models selected
1 [ID: 1] region 12 chains [406-425] RMSD: 37.157
> show sel cartoons
> color sel hot pink
Drag select of 8603 residues, 5 pseudobonds
> select intersect /dsb1A
45716 atoms, 2800 residues, 20 models selected
> contacts sel restrict /spo11b select true interModel false intraMol false
663 contacts
> sequence chain
> #14/spo11b#16/spo11b#17/spo11b#18/spo11b#19/spo11b#20/spo11b#21/spo11b#22/spo11b#23/spo11b#24/spo11b#25/spo11b#26/spo11b#27/spo11b#28/spo11b#29/spo11b#30/spo11b#31/spo11b
Alignment identifier is 3
> sequence chain
> #14/dsb1A#16/dsb1A#17/dsb1A#18/dsb1A#19/dsb1A#20/dsb1A#21/dsb1A#22/dsb1A#23/dsb1A#24/dsb1A#25/dsb1A#26/dsb1A#27/dsb1A#28/dsb1A#29/dsb1A#30/dsb1A#31/dsb1A
Alignment identifier is 4
> select up
4222 atoms, 4053 bonds, 236 residues, 17 models selected
> select down
719 atoms, 236 residues, 17 models selected
> select #14/spo11b:382 #16/spo11b:382 #17/spo11b:382 #18/spo11b:382
> #19/spo11b:382 #20/spo11b:382 #21/spo11b:382 #22/spo11b:382 #23/spo11b:382
> #24/spo11b:382 #25/spo11b:382 #26/spo11b:382 #27/spo11b:382 #28/spo11b:382
> #29/spo11b:382 #30/spo11b:382 #31/spo11b:382
323 atoms, 306 bonds, 17 residues, 17 models selected
> select #14/spo11b:382-425 #16/spo11b:382-425 #17/spo11b:382-425
> #18/spo11b:382-425 #19/spo11b:382-425 #20/spo11b:382-425 #21/spo11b:382-425
> #22/spo11b:382-425 #23/spo11b:382-425 #24/spo11b:382-425 #25/spo11b:382-425
> #26/spo11b:382-425 #27/spo11b:382-425 #28/spo11b:382-425 #29/spo11b:382-425
> #30/spo11b:382-425 #31/spo11b:382-425
11135 atoms, 11186 bonds, 748 residues, 17 models selected
3 [ID: 3] region 17 chains [382-425] RMSD: 37.341
> show sel cartoons
> select #14/spo11b:382 #16/spo11b:382 #17/spo11b:382 #18/spo11b:382
> #19/spo11b:382 #20/spo11b:382 #21/spo11b:382 #22/spo11b:382 #23/spo11b:382
> #24/spo11b:382 #25/spo11b:382 #26/spo11b:382 #27/spo11b:382 #28/spo11b:382
> #29/spo11b:382 #30/spo11b:382 #31/spo11b:382
323 atoms, 306 bonds, 17 residues, 17 models selected
> select #14/spo11b:382-405 #16/spo11b:382-405 #17/spo11b:382-405
> #18/spo11b:382-405 #19/spo11b:382-405 #20/spo11b:382-405 #21/spo11b:382-405
> #22/spo11b:382-405 #23/spo11b:382-405 #24/spo11b:382-405 #25/spo11b:382-405
> #26/spo11b:382-405 #27/spo11b:382-405 #28/spo11b:382-405 #29/spo11b:382-405
> #30/spo11b:382-405 #31/spo11b:382-405
6069 atoms, 6086 bonds, 408 residues, 17 models selected
3 [ID: 3] region 17 chains [382-405] RMSD: 33.469
> hide sel cartoons
> select #14/spo11b:425 #16/spo11b:425 #17/spo11b:425 #18/spo11b:425
> #19/spo11b:425 #20/spo11b:425 #21/spo11b:425 #22/spo11b:425 #23/spo11b:425
> #24/spo11b:425 #25/spo11b:425 #26/spo11b:425 #27/spo11b:425 #28/spo11b:425
> #29/spo11b:425 #30/spo11b:425 #31/spo11b:425
221 atoms, 204 bonds, 17 residues, 17 models selected
> select #14/spo11b:406-425 #16/spo11b:406-425 #17/spo11b:406-425
> #18/spo11b:406-425 #19/spo11b:406-425 #20/spo11b:406-425 #21/spo11b:406-425
> #22/spo11b:406-425 #23/spo11b:406-425 #24/spo11b:406-425 #25/spo11b:406-425
> #26/spo11b:406-425 #27/spo11b:406-425 #28/spo11b:406-425 #29/spo11b:406-425
> #30/spo11b:406-425 #31/spo11b:406-425
5066 atoms, 5083 bonds, 340 residues, 17 models selected
3 [ID: 3] region 17 chains [406-425] RMSD: 41.513
> select #14/spo11b:377 #16/spo11b:377 #17/spo11b:377 #18/spo11b:377
> #19/spo11b:377 #20/spo11b:377 #21/spo11b:377 #22/spo11b:377 #23/spo11b:377
> #24/spo11b:377 #25/spo11b:377 #26/spo11b:377 #27/spo11b:377 #28/spo11b:377
> #29/spo11b:377 #30/spo11b:377 #31/spo11b:377
323 atoms, 306 bonds, 17 residues, 17 models selected
> select #14/spo11b:377-425 #16/spo11b:377-425 #17/spo11b:377-425
> #18/spo11b:377-425 #19/spo11b:377-425 #20/spo11b:377-425 #21/spo11b:377-425
> #22/spo11b:377-425 #23/spo11b:377-425 #24/spo11b:377-425 #25/spo11b:377-425
> #26/spo11b:377-425 #27/spo11b:377-425 #28/spo11b:377-425 #29/spo11b:377-425
> #30/spo11b:377-425 #31/spo11b:377-425
12478 atoms, 12546 bonds, 833 residues, 17 models selected
3 [ID: 3] region 17 chains [377-425] RMSD: 36.037
> hide sel cartoons
Drag select of 6337 residues
> select intersect /dsb1A
45716 atoms, 2800 residues, 20 models selected
> contacts sel restrict /spo11b select true interModel false intraMol false
663 contacts
> select intersect /spo11b
355 atoms, 111 residues, 17 models selected
> sequence chain
> #14/spo11b#16/spo11b#17/spo11b#18/spo11b#19/spo11b#20/spo11b#21/spo11b#22/spo11b#23/spo11b#24/spo11b#25/spo11b#26/spo11b#27/spo11b#28/spo11b#29/spo11b#30/spo11b#31/spo11b
Alignment identifier is 5
> select up
1746 atoms, 1675 bonds, 111 residues, 17 models selected
> select down
355 atoms, 111 residues, 17 models selected
> show sel cartoons
> color sel magenta
> select clear
> select #19/spo11b:386
21 atoms, 21 bonds, 1 residue, 1 model selected
> select up
143 atoms, 144 bonds, 9 residues, 1 model selected
> select add #14/spo11b:392
154 atoms, 154 bonds, 10 residues, 2 models selected
> select add #25/spo11b:389
166 atoms, 165 bonds, 11 residues, 3 models selected
> hide sel cartoons
Drag select of 123 residues
> select up
6116 atoms, 6140 bonds, 406 residues, 12 models selected
> select add #20/spo11a:416
6136 atoms, 6160 bonds, 407 residues, 13 models selected
> select up
6175 atoms, 6199 bonds, 409 residues, 13 models selected
Drag select of 1 residues
> select up
7114 atoms, 7146 bonds, 470 residues, 13 models selected
Drag select of 1 residues
> select up
7226 atoms, 7258 bonds, 478 residues, 13 models selected
> hide sel cartoons
Drag select of 8 residues
> hide sel cartoons
> select clear
Drag select of 702 residues
> select up
40706 atoms, 41174 bonds, 2432 residues, 30 models selected
> select up
170077 atoms, 171517 bonds, 10350 residues, 30 models selected
> color sel orange
> select clear
[Repeated 1 time(s)]
> select /dsb1B:1-135
44374 atoms, 44774 bonds, 2700 residues, 20 models selected
> contacts sel restrict /spo11a interModel false intraMol false
616 contacts
> select intersect /spo11b
Nothing selected
> select /dsb1B:1-135
44374 atoms, 44774 bonds, 2700 residues, 20 models selected
> contacts sel restrict /spo11a interModel false intraMol false
616 contacts
> select intersect /spo11a
Nothing selected
> select /dsb1B:1-135
44374 atoms, 44774 bonds, 2700 residues, 20 models selected
> contacts sel restrict /spo11a interModel false intraMol false
616 contacts
> sequence chain
> #7/dsb1B#8/dsb1B#9/dsb1B#10/dsb1B#11/dsb1B#12/dsb1B#13/dsb1B#14/dsb1B#15/dsb1B#16/dsb1B#17/dsb1B#18/dsb1B#19/dsb1B#20/dsb1B#21/dsb1B#22/dsb1B#23/dsb1B#24/dsb1B#25/dsb1B#26/dsb1B
Alignment identifier is 6
> select up
54214 atoms, 54721 bonds, 3389 residues, 25 models selected
> select down
44374 atoms, 44774 bonds, 2700 residues, 25 models selected
> select clear
> select /dsb1B:1-135
44374 atoms, 44774 bonds, 2700 residues, 20 models selected
> contacts sel restrict /spo11a interModel false intraMol false select true
616 contacts
> sequence chain
> #7/spo11a#8/spo11a#9/spo11a#10/spo11a#11/spo11a#14/spo11a#16/spo11a#17/spo11a#18/spo11a#19/spo11a#20/spo11a#21/spo11a#22/spo11a#23/spo11a#24/spo11a#25/spo11a#26/spo11a
Alignment identifier is 6
> sequence chain
> #7/dsb1B#8/dsb1B#9/dsb1B#10/dsb1B#11/dsb1B#14/dsb1B#16/dsb1B#17/dsb1B#18/dsb1B#19/dsb1B#20/dsb1B#21/dsb1B#22/dsb1B#23/dsb1B#24/dsb1B#25/dsb1B#26/dsb1B
Alignment identifier is 7
> select up
3928 atoms, 3772 bonds, 220 residues, 22 models selected
> select down
643 atoms, 220 residues, 22 models selected
> show sel cartoons
> select intersect /spo11a
321 atoms, 106 residues, 17 models selected
> color sel hot pink
> select clear
> select #19/spo11a:386
21 atoms, 21 bonds, 1 residue, 1 model selected
> select up
172 atoms, 173 bonds, 11 residues, 1 model selected
> hide sel cartoons
> select clear
Drag select of 20 residues
> sequence chain #14/spo11a
Alignment identifier is 14/spo11a
Drag select of 1 residues
> hide sel cartoons
Drag select of 1813 residues
> select intersect /spo11a
1364 atoms, 88 residues, 12 models selected
> color sel magenta
> select clear
> select /dsb1B:1-135
44374 atoms, 44774 bonds, 2700 residues, 20 models selected
> contacts sel restrict /spo11a interModel false intraMol false select true
616 contacts
> select intersect /spo11a
321 atoms, 106 residues, 17 models selected
> color sel magenta
> select clear
> save /Users/pcarlton/Desktop/wow3.cxs
> movie record
> turn y 2 180
> wait 180
> movie encode /Users/pcarlton/Desktop/movie3.mp4
Movie saved to /Users/pcarlton/Desktop/movie3.mp4
> help help:user
> camera ortho
Drag select of 8200 residues
> select intersect /E
92372 atoms, 5622 residues, 30 models selected
> contacts sel restrict /spo11a interModel false intraMol false select true
2073 contacts
> select intersect /spo11a
1214 atoms, 421 residues, 30 models selected
> sequence align sel
Alignment identifier is 7
Showing conservation header ("seq_conservation" residue attribute) for
alignment 7
Webservices job id: 38O420DOB46W1H5J
Webservices job finished: 38O420DOB46W1H5J
> sequence header 7 rmsd show
Chains used in RMSD evaluation for alignment 7:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/spo11a,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/spo11a,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/spo11a
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 7
> sequence header 7 conservation hide
Hiding conservation header for alignment 7
> select clear
Drag select of 10291 residues, 46 pseudobonds
> select intersect /E
92372 atoms, 5622 residues, 30 models selected
> contacts sel restrict /spo11b interModel false intraMol false select true
2052 contacts
> select intersect /spo11b
1166 atoms, 313 residues, 30 models selected
> sequence align sel
Alignment identifier is 8
Showing conservation header ("seq_conservation" residue attribute) for
alignment 8
Webservices job id: 8OAWPZEGAXJ1TNJ9
Webservices job finished: 8OAWPZEGAXJ1TNJ9
> sequence header 8 rmsd show
Chains used in RMSD evaluation for alignment 8:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/spo11b,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/spo11b,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/spo11b
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 8
> sequence header 8 conservation hide
Hiding conservation header for alignment 8
Drag select of 9061 residues
> select intersect /E
92372 atoms, 5622 residues, 30 models selected
> contacts sel restrict /spo11b,spo11a interModel false intraMol false select
> true
4125 contacts
> select intersect /E
2053 atoms, 665 residues, 30 models selected
> select /E
170077 atoms, 171517 bonds, 10350 residues, 30 models selected
> contacts sel restrict /spo11a interModel false intraMol false select true
2386 contacts
> select intersect /E
1264 atoms, 409 residues, 30 models selected
> sequence align sel
Alignment identifier is 1
Showing conservation header ("seq_conservation" residue attribute) for
alignment 1
Webservices job id: 07CIG2E60N2239QG
Webservices job finished: 07CIG2E60N2239QG
> name frozen dsb3tspoA sel
> select clear
> select dsb3tspoA
1264 atoms, 647 bonds, 409 residues, 30 models selected
> select clear
> select /E
170077 atoms, 171517 bonds, 10350 residues, 30 models selected
> contacts sel restrict /spo11b interModel false intraMol false select true
3541 contacts
> select intersect /E
1659 atoms, 532 residues, 30 models selected
> name frozen dsb3tspoB sel
> select dsb3tspoB
1659 atoms, 988 bonds, 532 residues, 30 models selected
> select dsb3tspoA
1264 atoms, 647 bonds, 409 residues, 30 models selected
> select dsb3tspoB
1659 atoms, 988 bonds, 532 residues, 30 models selected
> select dsb3tspoA
1264 atoms, 647 bonds, 409 residues, 30 models selected
> sequence header 1 rmsd show
Chains used in RMSD evaluation for alignment 1:
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #1/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif #3/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif #7/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif #8/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif #9/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif #10/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif #11/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_0.um.cif #12/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_1.um.cif #13/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_2.um.cif #14/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_3.um.cif #15/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdna_model_4.um.cif #16/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_0.um.cif #17/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_1.um.cif #18/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_2.um.cif #19/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_3.um.cif #20/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnab_model_4.um.cif #21/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_0.um.cif #22/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_1.um.cif #23/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_2.um.cif #24/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_3.um.cif #25/E,
fold_k00cele_spo_11x2_dsb113_mg4_splitdnac_model_4.um.cif #26/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_0.um.cif #27/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_1.um.cif #28/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_2.um.cif #29/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_3.um.cif #30/E,
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2c_model_4.um.cif #31/E
Showing rmsd header ("seq_rmsd" residue attribute) for alignment 1
> sequence header 1 conservation hide
Hiding conservation header for alignment 1
> select dsb3tspoB
1659 atoms, 988 bonds, 532 residues, 30 models selected
> select dsb3tspoA
1264 atoms, 647 bonds, 409 residues, 30 models selected
> select dsb3tspoB
1659 atoms, 988 bonds, 532 residues, 30 models selected
> save /Users/pcarlton/Desktop/wow3.cxs
——— End of log from Sat Sep 6 22:32:53 2025 ———
> view name session-start
opened ChimeraX session
> select #19/spo11b:353
17 atoms, 16 bonds, 1 residue, 1 model selected
> select #19/spo11b:353
17 atoms, 16 bonds, 1 residue, 1 model selected
> select #19/spo11b:353
17 atoms, 16 bonds, 1 residue, 1 model selected
> show sel atoms
> open /Users/pcarlton/7ftv_A_sampled_0.cif
7ftv_A_sampled_0.cif title:
. [more info...]
Chain information for 7ftv_A_sampled_0.cif #32
---
Chain | Description
A | .
Color 7ftv_A_sampled_0.cif by residue attribute pLDDT_score
Computing secondary structure
> ui tool show "Model Panel"
> close #32
> open /Users/pcarlton/code/ml-
> simplefold/artifacts/predictions_simplefold_360M_mlx/7ftv_D_sampled_0.cif
7ftv_D_sampled_0.cif title:
. [more info...]
Chain information for 7ftv_D_sampled_0.cif #32
---
Chain | Description
A | .
Color 7ftv_D_sampled_0.cif by residue attribute pLDDT_score
Computing secondary structure
> select add #32
3039 atoms, 3110 bonds, 386 residues, 2 models selected
> select ~sel
1029784 atoms, 1047834 bonds, 4189 pseudobonds, 61094 residues, 62 models
selected
> select clear
[Repeated 1 time(s)]
> hide #6#!1-5,7-31 target m
> select add #32
3022 atoms, 3094 bonds, 385 residues, 1 model selected
> select subtract #32
Nothing selected
> select clear
Drag select of 36 residues
> sequence chain #32/A
Alignment identifier is 32/A
> select clear
> select #32/A:120
8 atoms, 7 bonds, 1 residue, 1 model selected
> select #32/A:120-131
106 atoms, 108 bonds, 12 residues, 1 model selected
> select #32/A:105
8 atoms, 7 bonds, 1 residue, 1 model selected
> select #32/A:105-107
23 atoms, 22 bonds, 3 residues, 1 model selected
> select clear
> select #32/A:59
7 atoms, 6 bonds, 1 residue, 1 model selected
> select #32/A:59-61
24 atoms, 23 bonds, 3 residues, 1 model selected
> select clear
> rainbow #32
> select #32/A:99
7 atoms, 6 bonds, 1 residue, 1 model selected
> select #32/A:99-109
92 atoms, 94 bonds, 11 residues, 1 model selected
> select clear
> select #32/A:127
6 atoms, 5 bonds, 1 residue, 1 model selected
> select up
106 atoms, 108 bonds, 12 residues, 1 model selected
> select clear
> select #32/A:130-182
385 atoms, 390 bonds, 53 residues, 1 model selected
> select #32/A:130-188
438 atoms, 446 bonds, 59 residues, 1 model selected
> select #32/A:130-188
438 atoms, 446 bonds, 59 residues, 1 model selected
> select #32/A:189
7 atoms, 6 bonds, 1 residue, 1 model selected
> select #32/A:181-189
73 atoms, 75 bonds, 9 residues, 1 model selected
> color sel magenta
> select #32/A:186
6 atoms, 5 bonds, 1 residue, 1 model selected
> select #32/A:186
6 atoms, 5 bonds, 1 residue, 1 model selected
> show sel atoms
> style sel ball
Changed 6 atom styles
> color sel byhetero
> select clear
> select #32/A:186@OG
1 atom, 1 residue, 1 model selected
> addcharge hydrogens
Expected a keyword
> ui tool show "Add Hydrogens"
> addh #32
Summary of feedback from adding hydrogens to 7ftv_D_sampled_0.cif #32
---
notes | Termini for 7ftv_D_sampled_0.cif (#32) chain A determined from SEQRES records
Chain-initial residues that are actual N termini: 7ftv_D_sampled_0.cif #32/A
MET 1
Chain-initial residues that are not actual N termini:
Chain-final residues that are actual C termini: 7ftv_D_sampled_0.cif #32/A PHE
385
Chain-final residues that are not actual C termini:
Missing OXT added to C-terminal residue 7ftv_D_sampled_0.cif #32/A PHE 385
324 hydrogen bonds
2939 hydrogens added
> color sel byhetero
> select clear
> color #32 byhetero
> select #32/A:186@HG
1 atom, 1 residue, 1 model selected
> ui tool show "Build Structure"
> build modify #32/A:186@HG P 4 geometry tetrahedral name P1 resName SEP
> select #32/A:186@H13
1 atom, 1 residue, 1 model selected
> build modify #32/A:186@H13 O 2 geometry linear name O1
> select #32/A:186@H12
1 atom, 1 residue, 1 model selected
> build modify #32/A:186@H12 O 2 geometry linear name O2
> select #32/A:186@H11
1 atom, 1 residue, 1 model selected
> build modify #32/A:186@H11 O 2 geometry linear name O3
> select #32/A:186@H3
1 atom, 1 residue, 1 model selected
> delete atoms sel
> delete bonds sel
> select #32/A:212
11 atoms, 10 bonds, 1 residue, 1 model selected
> select up
48 atoms, 48 bonds, 3 residues, 1 model selected
> close #32
> open /Users/pcarlton/code/ml-
> simplefold/artifacts/predictions_simplefold_360M_mlx/7ftv_E_sampled_0.cif
7ftv_E_sampled_0.cif title:
. [more info...]
Chain information for 7ftv_E_sampled_0.cif #32
---
Chain | Description
A | .
Color 7ftv_E_sampled_0.cif by residue attribute pLDDT_score
Computing secondary structure
> select #32/A
8081 atoms, 8247 bonds, 1012 residues, 1 model selected
> select #32/B
Nothing selected
> select #32/A
8081 atoms, 8247 bonds, 1012 residues, 1 model selected
> rainbow sel
> select clear
Drag select of 22 residues
> sequence chain #32/A
Alignment identifier is 32/A
> select clear
> select #32/A:385-386
16 atoms, 16 bonds, 2 residues, 1 model selected
> select #32/A:342-385
352 atoms, 360 bonds, 44 residues, 1 model selected
> select clear
[Repeated 1 time(s)]
> color #32 bychain
> select #32/A:385
11 atoms, 11 bonds, 1 residue, 1 model selected
> select #32/A:278-385
873 atoms, 888 bonds, 108 residues, 1 model selected
> color sel red
> select #32/A:666
8 atoms, 7 bonds, 1 residue, 1 model selected
> select #32/A:605-666
504 atoms, 516 bonds, 62 residues, 1 model selected
> color sel yellow
> select #32/A:631-687
466 atoms, 479 bonds, 57 residues, 1 model selected
> select #32/A:631-713
675 atoms, 690 bonds, 83 residues, 1 model selected
> select
> #32/A:59-61,89-101,112-115,121-127,154-175,181-185,203-215,219-223,241-243,261-263,276-278,281-283,305-312,315-327,331-344,348-363,380-382,471-483,490-497,509-515,518-528,554-556,587-596,598-609,612-633,643-656,665-667,677-693,703-708,710-712,717-725,737-739,741-745,752-789,794-815,826-844,846-848,851-872,877-900,907-922,924-927,932-949,951-973,976-1006
4135 atoms, 4176 bonds, 504 residues, 1 model selected
> select #32/A:631-676
376 atoms, 384 bonds, 46 residues, 1 model selected
> select #32/A:631-699
564 atoms, 577 bonds, 69 residues, 1 model selected
> select #32/A:784-785
18 atoms, 17 bonds, 2 residues, 1 model selected
> select #32/A:784-786
28 atoms, 28 bonds, 3 residues, 1 model selected
> select #32/A:676
8 atoms, 7 bonds, 1 residue, 1 model selected
> select #32/A:676-715
324 atoms, 330 bonds, 40 residues, 1 model selected
> color sel cornflower blue
> color sel white
> color sel lime
> select clear
> close #32
> show #!1 models
> show #!31 models
> show #!30 models
> show #!29 models
> show #!28 models
> show #!26 models
> show #!27 models
> show #!25 models
> show #!24 models
> show #!23 models
> show #!22 models
> show #!21 models
> show #!20 models
> show #!19 models
> show #!18 models
> show #!17 models
> show #!16 models
> show #!15 models
> show #!14 models
> show #!13 models
> show #!12 models
> show #!11 models
> show #!10 models
> show #!9 models
> show #!8 models
> show #!7 models
> show #6 models
> hide #6 models
> show #!5 models
> show #!4 models
> show #!3 models
> show #!2 models
> save /Users/pcarlton/Desktop/k00session.cxs
——— End of log from Fri Sep 26 16:09:00 2025 ———
> view name session-start
opened ChimeraX session
> close #6
> hide #!12 models
> hide #12-31 models
> select clear
> color #!1-5,7-11 bychain
> select /dsb1A
149016 atoms, 150816 bonds, 9625 residues, 25 models selected
> select clear
> select #9/dsb1a
Nothing selected
> select #9/dsb1A
Nothing selected
> select #9/dsb1B
5960 atoms, 6032 bonds, 385 residues, 1 model selected
> select #1-11/dsb1A
29806 atoms, 30166 bonds, 1925 residues, 5 models selected
> select #1-11/dsb1B
29804 atoms, 30164 bonds, 1925 residues, 5 models selected
> mmaker #1-11/dsb1B to #1-11/dsb1A
Specify a single 'to' model only
> mmaker #1-11/dsb1B to #1/dsb1A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain
dsb1A (#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif,
chain dsb1B (#7), sequence alignment score = 1815.6
RMSD between 124 pruned atom pairs is 0.590 angstroms; (across all 385 pairs:
44.838)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain
dsb1A (#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_1.um.cif,
chain dsb1B (#8), sequence alignment score = 1815
RMSD between 5 pruned atom pairs is 1.382 angstroms; (across all 385 pairs:
50.017)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain
dsb1A (#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif,
chain dsb1B (#9), sequence alignment score = 1801.8
RMSD between 122 pruned atom pairs is 0.695 angstroms; (across all 385 pairs:
51.518)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain
dsb1A (#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif,
chain dsb1B (#10), sequence alignment score = 1826.4
RMSD between 120 pruned atom pairs is 0.573 angstroms; (across all 385 pairs:
55.782)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain
dsb1A (#1) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif,
chain dsb1B (#11), sequence alignment score = 1800.6
RMSD between 127 pruned atom pairs is 0.649 angstroms; (across all 385 pairs:
41.180)
Drag select of 154 residues
> select up
4291 atoms, 4322 bonds, 255 residues, 9 models selected
> select clear
Drag select of 152 residues
> select add #8
36186 atoms, 34136 bonds, 16 pseudobonds, 2136 residues, 11 models selected
> select clear
Drag select of 149 residues
> select up
4127 atoms, 4157 bonds, 243 residues, 9 models selected
> select up
61582 atoms, 62167 bonds, 3825 residues, 9 models selected
> changechains sel spo11B2
Chain IDs of 3825 residues changed
> select clear
> color #!1-5,7-11 bychain
Drag select of 67 residues
> select up
3062 atoms, 3082 bonds, 192 residues, 9 models selected
> select up
61575 atoms, 62160 bonds, 3825 residues, 9 models selected
> info chains sel
chain id #1/spo11b chain_id spo11b
chain id #2/spo11b chain_id spo11b
chain id #3/spo11b chain_id spo11b
chain id #4/spo11b chain_id spo11b
chain id #5/spo11b chain_id spo11b
chain id #7/spo11a chain_id spo11a
chain id #9/spo11a chain_id spo11a
chain id #10/spo11a chain_id spo11a
chain id #11/spo11a chain_id spo11a
> ui tool show Log
> color sel medium blue
> changechains sel spo11X
Chain IDs of 3825 residues changed
> select clear
Drag select of 42 residues
> select up
1359 atoms, 1368 bonds, 81 residues, 9 models selected
> select up
61582 atoms, 62167 bonds, 3825 residues, 9 models selected
> select clear
> select #8
33549 atoms, 34136 bonds, 16 pseudobonds, 1984 residues, 2 models selected
> show ribbons
> show sel ribbons
> select clear
> undo
[Repeated 1 time(s)]
> select clear
> hide #!8 models
> show #!8 models
> hide #!8 models
> show #!8 models
> hide #!8 models
Drag select of 201 residues
> select up
5003 atoms, 5015 bonds, 308 residues, 18 models selected
> select up
53648 atoms, 54296 bonds, 3465 residues, 18 models selected
> select up
301964 atoms, 307254 bonds, 17856 residues, 18 models selected
> select clear
> select #1-11/dsb1A #1-11/dsb1B
59610 atoms, 60330 bonds, 3850 residues, 10 models selected
> changechains sel dsb1X
Chain IDs of 3850 residues changed
> select clear
> color #!1-5,7,9-11 bychain
> select clear
Drag select of 131 residues
> select up
3040 atoms, 3041 bonds, 192 residues, 4 models selected
> select up
17630 atoms, 17806 bonds, 1120 residues, 4 models selected
> select #1-11/dsb2
44074 atoms, 44514 bonds, 2800 residues, 10 models selected
> select #1-11/dsb2:1-100
16245 atoms, 16395 bonds, 1000 residues, 10 models selected
> show sel & #!1-5,7,9-11 cartoons
> select clear
> select #1-11/dsb2:1-100
16245 atoms, 16395 bonds, 1000 residues, 10 models selected
> show sel ribbons
> select clear
[Repeated 1 time(s)]
> color #!1-5,7,9-11 bychain
> select /dsb1X
59610 atoms, 60330 bonds, 3850 residues, 10 models selected
> color (#!1-5,7,9-11 & sel) red
> select clear
Drag select of 158 residues
> select up
8689 atoms, 8784 bonds, 523 residues, 9 models selected
> select up
61582 atoms, 62167 bonds, 3825 residues, 9 models selected
> info chains sel
chain id #1/spo11B2 chain_id spo11B2
chain id #2/spo11B2 chain_id spo11B2
chain id #3/spo11B2 chain_id spo11B2
chain id #4/spo11B2 chain_id spo11B2
chain id #5/spo11B2 chain_id spo11B2
chain id #7/spo11B2 chain_id spo11B2
chain id #9/spo11B2 chain_id spo11B2
chain id #10/spo11B2 chain_id spo11B2
chain id #11/spo11B2 chain_id spo11B2
> changechains sel spo11B
Chain IDs of 3825 residues changed
> select /spo11X
61575 atoms, 62160 bonds, 46 pseudobonds, 3825 residues, 10 models selected
> select /spo11A
Nothing selected
Drag select of 157 residues
> select up
7696 atoms, 7791 bonds, 472 residues, 9 models selected
> select up
61582 atoms, 62167 bonds, 3825 residues, 9 models selected
> info chains sel
chain id #1/spo11B chain_id spo11B
chain id #2/spo11B chain_id spo11B
chain id #3/spo11B chain_id spo11B
chain id #4/spo11B chain_id spo11B
chain id #5/spo11B chain_id spo11B
chain id #7/spo11B chain_id spo11B
chain id #9/spo11B chain_id spo11B
chain id #10/spo11B chain_id spo11B
chain id #11/spo11B chain_id spo11B
> select #3/spo11B:88
24 atoms, 23 bonds, 1 residue, 1 model selected
Drag select of 44 residues
> select up
4507 atoms, 4522 bonds, 265 residues, 9 models selected
> select up
61582 atoms, 62167 bonds, 3825 residues, 9 models selected
> changechains sel spo11aa
Chain IDs of 3825 residues changed
Drag select of 19 residues
> select up
3606 atoms, 3649 bonds, 245 residues, 9 models selected
> select up
61575 atoms, 62160 bonds, 3825 residues, 9 models selected
> changechains sel spo11bb
Chain IDs of 3825 residues changed
> select /spo11aa
61582 atoms, 62167 bonds, 53 pseudobonds, 3825 residues, 10 models selected
> mmaker #1,2,3,4,5,7,8,9,10/spo11aa to #11/spo11aa
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif,
chain spo11aa (#1), sequence alignment score = 2051.2
RMSD between 331 pruned atom pairs is 0.449 angstroms; (across all 425 pairs:
35.661)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif,
chain spo11aa (#2), sequence alignment score = 2051.8
RMSD between 333 pruned atom pairs is 0.408 angstroms; (across all 425 pairs:
20.832)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_2.um.cif,
chain spo11aa (#3), sequence alignment score = 2058.4
RMSD between 332 pruned atom pairs is 0.523 angstroms; (across all 425 pairs:
22.312)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif,
chain spo11aa (#4), sequence alignment score = 2018.8
RMSD between 330 pruned atom pairs is 0.572 angstroms; (across all 425 pairs:
32.028)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif,
chain spo11aa (#5), sequence alignment score = 2071.6
RMSD between 330 pruned atom pairs is 0.540 angstroms; (across all 425 pairs:
33.170)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_0.um.cif,
chain spo11aa (#7), sequence alignment score = 2036.8
RMSD between 331 pruned atom pairs is 0.437 angstroms; (across all 425 pairs:
37.251)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_2.um.cif,
chain spo11aa (#9), sequence alignment score = 2051.2
RMSD between 338 pruned atom pairs is 0.444 angstroms; (across all 425 pairs:
10.218)
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_4.um.cif, chain
spo11aa (#11) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2b_model_3.um.cif,
chain spo11aa (#10), sequence alignment score = 2031.4
RMSD between 308 pruned atom pairs is 0.504 angstroms; (across all 425 pairs:
28.904)
> save /Users/pcarlton/Desktop/k00session.cxs
——— End of log from Mon Jan 12 07:35:42 2026 ———
> view name session-start
opened ChimeraX session
> close #2-5,7-31
> select add #1
33553 atoms, 34141 bonds, 193 pseudobonds, 1984 residues, 3 models selected
> select subtract #1
1 model selected
> select clear
[Repeated 1 time(s)]
> select /A,B
Nothing selected
> info chains
chain id /spo11aa chain_id spo11aa
chain id /spo11bb chain_id spo11bb
chain id /dsb1X chain_id dsb1X
chain id /dsb2 chain_id dsb2
chain id /E chain_id E
chain id /J chain_id J
chain id /K chain_id K
chain id /L chain_id L
> ui tool show Log
> select /spo11aa,spo11bb
13685 atoms, 13815 bonds, 103 pseudobonds, 850 residues, 2 models selected
> sequence chain #1/spo11aa,spo11bb
Alignment identifier is 1
> select /spo11aa-spo11bb:49
48 atoms, 46 bonds, 2 residues, 1 model selected
> select /spo11aa-spo11bb:49-57
302 atoms, 302 bonds, 18 residues, 1 model selected
> show sel atoms
> hide sel cartoons
> color sel byhetero
> style sel ball
Changed 302 atom styles
> select clear
> sequence chain #1/spo11aa,spo11bb
Alignment identifier is 1
> sequence chain #1/dsb1X
Alignment identifier is 1/dsb1X
> sequence chain #1/dsb2
Alignment identifier is 1/dsb2
> sequence chain #1/E
Alignment identifier is 1/E
> sequence chain #1/J
Alignment identifier is 1/J
> sequence chain #1/K
Alignment identifier is 1/K
> sequence chain #1/L
Alignment identifier is 1/L
> select /spo11aa-spo11bb:49
48 atoms, 46 bonds, 2 residues, 1 model selected
> select /spo11aa-spo11bb:49
48 atoms, 46 bonds, 2 residues, 1 model selected
> select /spo11aa-spo11bb:54
20 atoms, 18 bonds, 2 residues, 1 model selected
> select /spo11aa-spo11bb:54-55
58 atoms, 56 bonds, 4 residues, 1 model selected
> select /spo11aa-spo11bb:54-55
58 atoms, 56 bonds, 4 residues, 1 model selected
> select /spo11aa-spo11bb:54-55
58 atoms, 56 bonds, 4 residues, 1 model selected
> select /spo11aa-spo11bb:56-57
44 atoms, 42 bonds, 4 residues, 1 model selected
> select /spo11aa-spo11bb:56-57
44 atoms, 42 bonds, 4 residues, 1 model selected
> select /spo11aa-spo11bb:54
20 atoms, 18 bonds, 2 residues, 1 model selected
> select /spo11aa-spo11bb:54
20 atoms, 18 bonds, 2 residues, 1 model selected
> select /spo11aa:49@C
1 atom, 1 residue, 1 model selected
> select up
24 atoms, 23 bonds, 1 residue, 1 model selected
> view sel
> select clear
> show atoms
> hide cartoons
> select clear
> color byhetero
> select clear
> select up
2 atoms, 1 bond, 1 residue, 1 model selected
> select up
24 atoms, 23 bonds, 1 residue, 1 model selected
> color sel yellow
> color sel byhetero
> ui tool show Rotamers
Populating font family aliases took 337 ms. Replace uses of missing font
family "Times" with one that exists to avoid this cost.
> swapaa interactive sel ALA rotLib Dunbrack
No rotamers for ALA in Dunbrack rotamer library
> swapaa interactive sel ALA rotLib Dynameomics
No rotamers for ALA in Dynameomics rotamer library
> ui tool show "Build Structure"
> delete atoms sel
> delete bonds sel
> select /spo11aa:49@CG
1 atom, 1 residue, 1 model selected
> select up
24 atoms, 22 bonds, 1 residue, 1 model selected
> select down
1 atom, 1 residue, 1 model selected
> select /spo11aa:49@CB
1 atom, 1 residue, 1 model selected
> build modify /spo11aa:49@CB C 4 geometry tetrahedral resName ALA
> delete atoms sel
> delete bonds sel
> select /spo11aa:49@CG
1 atom, 1 residue, 1 model selected
> select add /spo11aa:49@HG3
2 atoms, 1 residue, 1 model selected
> select add /spo11aa:49@CD
3 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HD3
4 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HD2
5 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@NE
6 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@CZ
7 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@NH2
8 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@NH1
9 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HH11
10 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HH22
11 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HH21
12 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HH12
13 atoms, 1 bond, 1 residue, 1 model selected
> select add /spo11aa:49@HE
14 atoms, 1 bond, 1 residue, 1 model selected
> delete atoms sel
> delete bonds sel
> select /spo11aa:49@CB
1 atom, 1 residue, 1 model selected
> build modify /spo11aa:49@CB C 4 geometry tetrahedral
> select clear
[Repeated 1 time(s)]
> select /spo11aa:49@CA
1 atom, 1 residue, 1 model selected
> select up
10 atoms, 9 bonds, 1 residue, 1 model selected
> sequence chain #1/spo11aa
Alignment identifier is 1/spo11aa
> select /spo11aa:52
15 atoms, 14 bonds, 1 residue, 1 model selected
> select /spo11aa:52
15 atoms, 14 bonds, 1 residue, 1 model selected
> swapaa /spo11aa,spo11bb:52 ALA
Using Dunbrack library
Swapping /spo11aa GLU 52 to ALA
Swapping /spo11bb GLU 52 to ALA
> swapaa /spo11aa,spo11bb:53 ALA
Using Dunbrack library
Swapping /spo11aa PHE 53 to ALA
Swapping /spo11bb PHE 53 to ALA
> swapaa /spo11aa,spo11bb:49 ALA
Using Dunbrack library
Swapping /spo11aa ALA 49 to ALA
Swapping /spo11bb ARG 49 to ALA
> select clear
[Repeated 2 time(s)]
> view
> select clear
> hide atoms
> show cartoons
> select /spo11aa:49
5 atoms, 4 bonds, 1 residue, 1 model selected
> view sel
> select clear
> view
> select /spo11aa:49
5 atoms, 4 bonds, 1 residue, 1 model selected
> cofr sel
> select /spo11aa:49,53,54
20 atoms, 18 bonds, 3 residues, 1 model selected
> sequence chain #1/spo11aa
Destroying pre-existing alignment with identifier 1/spo11aa
Alignment identifier is 1/spo11aa
> select /spo11aa:49,52,53
15 atoms, 13 bonds, 3 residues, 1 model selected
> show sel atoms
> contacts /spo1aa restrict /dsb1X select true reveal true log true
No atoms match given atom specifier
> contacts /spo11aa restrict /dsb1X select true reveal true log true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: True
106 contacts
atom1 atom2 overlap distance
/spo11aa ALA 53 CB /dsb1X TYR 104 OH 0.376 3.004
/spo11aa ILE 73 O /dsb1X TYR 104 HE2 0.175 2.305
/spo11aa GLU 39 O /dsb1X TYR 62 HD2 0.133 2.347
/spo11aa ALA 86 O /dsb1X TYR 125 HE1 0.129 2.351
/spo11aa ALA 52 CB /dsb1X GLU 107 O 0.087 3.273
/spo11aa ALA 52 CB /dsb1X SER 106 HB2 0.083 2.797
/spo11aa GLU 39 O /dsb1X TYR 62 CD2 0.076 3.104
/spo11aa ALA 86 O /dsb1X TYR 125 CE1 0.074 3.106
/spo11aa ASP 93 OD1 /dsb1X THR 121 CB 0.038 3.142
/spo11aa ILE 73 O /dsb1X TYR 104 CE2 0.036 3.144
/spo11aa THR 85 C /dsb1X TRP 124 HH2 0.030 2.670
/spo11aa LEU 96 CB /dsb1X SER 117 HG 0.022 2.678
/spo11aa GLU 39 C /dsb1X TYR 62 HD2 0.014 2.686
/spo11aa GLN 46 NE2 /dsb1X SER 60 CB 0.001 3.324
/spo11aa ILE 41 HD12 /dsb1X VAL 59 O -0.035 2.515
/spo11aa THR 85 O /dsb1X TRP 124 HH2 -0.037 2.517
/spo11aa GLU 107 CD /dsb1X LYS 111 HZ1 -0.050 2.750
/spo11aa ASP 93 OD1 /dsb1X THR 121 CG2 -0.070 3.250
/spo11aa ASP 93 OD1 /dsb1X THR 121 HG21 -0.073 2.553
/spo11aa ALA 53 CB /dsb1X TYR 104 HH -0.085 2.965
/spo11aa ASP 38 O /dsb1X TYR 62 CD2 -0.096 3.276
/spo11aa HIS 100 CG /dsb1X ARG 116 CD -0.102 3.502
/spo11aa ALA 53 CB /dsb1X TYR 104 CZ -0.121 3.701
/spo11aa ASP 104 CG /dsb1X ARG 116 NH2 -0.124 3.449
/spo11aa LEU 96 HB3 /dsb1X SER 117 HG -0.139 2.139
/spo11aa ALA 56 CB /dsb1X GLU 107 HB2 -0.140 2.840
/spo11aa THR 85 C /dsb1X TRP 124 CH2 -0.140 3.540
/spo11aa THR 85 O /dsb1X TRP 124 CH2 -0.152 3.332
/spo11aa GLU 39 C /dsb1X TYR 62 CD2 -0.162 3.562
/spo11aa ILE 41 HG12 /dsb1X TYR 62 CZ -0.164 2.864
/spo11aa MET 62 SD /dsb1X ASN 120 HB3 -0.169 2.951
/spo11aa LEU 92 CD2 /dsb1X TRP 124 CZ3 -0.170 3.570
/spo11aa GLU 107 CD /dsb1X LYS 111 NZ -0.175 3.500
/spo11aa LEU 69 HG /dsb1X TRP 124 CZ2 -0.177 2.877
/spo11aa HIS 100 HB3 /dsb1X ARG 116 HH11 -0.179 2.179
/spo11aa HIS 100 CD2 /dsb1X ARG 116 HD3 -0.179 2.879
/spo11aa ALA 52 CB /dsb1X SER 106 CB -0.180 3.760
/spo11aa LYS 50 HA /dsb1X TYR 104 OH -0.184 2.684
/spo11aa ASP 93 OD1 /dsb1X THR 121 OG1 -0.188 2.768
/spo11aa ILE 41 HG12 /dsb1X TYR 62 CE2 -0.189 2.889
/spo11aa ASP 104 OD2 /dsb1X ARG 116 CZ -0.196 3.376
/spo11aa LYS 89 HD2 /dsb1X TYR 125 CG -0.197 2.897
/spo11aa ASP 38 O /dsb1X TYR 62 CE2 -0.198 3.378
/spo11aa GLU 107 OE2 /dsb1X LYS 111 CE -0.200 3.380
/spo11aa HIS 100 CB /dsb1X ARG 116 HD2 -0.205 2.905
/spo11aa ALA 52 CB /dsb1X GLU 107 H -0.205 3.085
/spo11aa HIS 100 HB3 /dsb1X ARG 116 NH1 -0.215 2.840
/spo11aa HIS 100 CB /dsb1X ARG 116 CD -0.216 3.616
/spo11aa ILE 41 CD1 /dsb1X VAL 59 O -0.221 3.401
/spo11aa ILE 41 HD11 /dsb1X ARG 61 O -0.224 2.704
/spo11aa GLN 46 CD /dsb1X SER 60 CB -0.237 3.637
/spo11aa LEU 96 CB /dsb1X SER 117 OG -0.238 3.438
/spo11aa GLN 46 NE2 /dsb1X SER 60 HB2 -0.239 2.864
/spo11aa ASP 104 OD1 /dsb1X ARG 116 HH22 -0.241 2.321
/spo11aa ASP 104 CG /dsb1X ARG 116 HH22 -0.245 2.945
/spo11aa HIS 100 CD2 /dsb1X ARG 116 CD -0.249 3.649
/spo11aa GLU 107 OE1 /dsb1X LYS 111 CE -0.251 3.431
/spo11aa ASP 104 CG /dsb1X ARG 116 NH1 -0.254 3.579
/spo11aa HIS 100 CE1 /dsb1X ARG 116 HB3 -0.257 2.957
/spo11aa HIS 100 HB3 /dsb1X ARG 116 HD2 -0.259 2.259
/spo11aa LYS 89 HZ1 /dsb1X ASP 122 OD1 -0.259 2.339
/spo11aa HIS 100 HB3 /dsb1X ARG 116 CD -0.260 2.960
/spo11aa HIS 100 CB /dsb1X ARG 116 HH11 -0.264 2.964
/spo11aa HIS 100 HE1 /dsb1X SER 117 HB3 -0.264 2.264
/spo11aa THR 75 OG1 /dsb1X MET 57 CE -0.269 3.469
/spo11aa ASP 104 OD1 /dsb1X ARG 116 CZ -0.273 3.453
/spo11aa LEU 96 HB3 /dsb1X SER 117 CB -0.278 2.978
/spo11aa ALA 56 CB /dsb1X GLU 107 CB -0.282 3.682
/spo11aa ASP 38 O /dsb1X TYR 62 HD2 -0.283 2.763
/spo11aa ILE 73 O /dsb1X TYR 104 HH -0.285 2.365
/spo11aa MET 62 HA /dsb1X TRP 124 CD1 -0.293 2.993
/spo11aa GLU 66 O /dsb1X TRP 124 HE1 -0.294 2.374
/spo11aa GLU 107 OE1 /dsb1X LYS 111 HE2 -0.305 2.785
/spo11aa ASP 104 OD1 /dsb1X ARG 116 NH2 -0.309 3.014
/spo11aa LYS 89 HD2 /dsb1X TYR 125 CD1 -0.310 3.010
/spo11aa GLU 39 O /dsb1X TYR 62 H -0.314 2.394
/spo11aa MET 62 SD /dsb1X ASN 120 CB -0.326 3.808
/spo11aa ALA 86 O /dsb1X TYR 125 CD1 -0.329 3.509
/spo11aa LEU 69 CG /dsb1X TRP 124 CZ2 -0.331 3.731
/spo11aa LEU 96 CB /dsb1X SER 117 CB -0.335 3.735
/spo11aa HIS 100 CD2 /dsb1X ARG 116 HH11 -0.336 3.036
/spo11aa HIS 100 CG /dsb1X ARG 116 HD3 -0.338 3.038
/spo11aa LEU 96 HB3 /dsb1X SER 117 OG -0.338 2.838
/spo11aa GLN 46 NE2 /dsb1X SER 60 CA -0.339 3.664
/spo11aa GLU 39 CA /dsb1X TYR 62 HD2 -0.340 3.040
/spo11aa ALA 56 HB2 /dsb1X GLU 107 HB2 -0.340 2.340
/spo11aa LYS 89 CD /dsb1X TYR 125 CG -0.341 3.741
/spo11aa ASP 104 OD1 /dsb1X ARG 116 HH12 -0.343 2.423
/spo11aa GLU 107 CD /dsb1X LYS 111 CE -0.349 3.749
/spo11aa LYS 50 HG3 /dsb1X VAL 59 HG11 -0.349 2.349
/spo11aa ILE 41 CG1 /dsb1X TYR 62 CE2 -0.350 3.750
/spo11aa ILE 41 HD11 /dsb1X ARG 61 C -0.365 3.065
/spo11aa HIS 100 ND1 /dsb1X ARG 116 CB -0.366 3.691
/spo11aa GLU 39 O /dsb1X ARG 61 HA -0.368 2.848
/spo11aa ALA 86 C /dsb1X TYR 125 HE1 -0.370 3.070
/spo11aa HIS 100 CB /dsb1X ARG 116 NH1 -0.376 3.701
/spo11aa HIS 100 CE1 /dsb1X SER 117 HB3 -0.380 3.080
/spo11aa HIS 100 CG /dsb1X ARG 116 HD2 -0.384 3.084
/spo11aa LEU 92 CD2 /dsb1X THR 121 HG22 -0.388 3.088
/spo11aa MET 62 CE /dsb1X THR 121 CG2 -0.389 3.789
/spo11aa ASP 104 OD1 /dsb1X ARG 116 NH1 -0.390 3.095
/spo11aa ASP 104 CG /dsb1X ARG 116 HH12 -0.395 3.095
/spo11aa HIS 100 CE1 /dsb1X ARG 116 CB -0.395 3.795
/spo11aa ALA 86 HB2 /dsb1X VAL 128 CG1 -0.396 3.096
/spo11aa LYS 50 CG /dsb1X VAL 59 HG11 -0.396 3.096
/spo11aa ILE 41 CD1 /dsb1X ARG 61 O -0.399 3.579
106 contacts
> select clear
> save /Users/pcarlton/Desktop/spo11x2_3Abyhand_DSB123_splitDNA.pdb
Chain IDs longer than 2 characters; truncating
> select clear
> open
> /Users/pcarlton/Desktop/af3/SPORM/k00cel/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif
Summary of feedback from opening
/Users/pcarlton/Desktop/af3/SPORM/k00cel/fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif
---
warnings | Skipping chem_comp category: Missing column 'type' on line 53
Missing entity information. Treating each chain as a separate entity.
Missing or incorrect sequence information. Inferred polymer connectivity.
Skipping chem_comp category: Missing column 'type' on line 33678
Chain information for
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2
---
Chain | Description
A B | No description available
C | No description available
D | No description available
E | No description available
J | No description available
K | No description available
L | No description available
> hide atoms
> show ribbons
Computing secondary structure
> info chains
chain id #1/spo11aa chain_id spo11aa
chain id #1/spo11bb chain_id spo11bb
chain id #1/dsb1X chain_id dsb1X
chain id #1/dsb2 chain_id dsb2
chain id #1/E chain_id E
chain id #1/J chain_id J
chain id #1/K chain_id K
chain id #1/L chain_id L
chain id #2/A chain_id A
chain id #2/B chain_id B
chain id #2/C chain_id C
chain id #2/D chain_id D
chain id #2/E chain_id E
chain id #2/J chain_id J
chain id #2/K chain_id K
chain id #2/L chain_id L
> mmaker #1/spo11aa to #2/A
Parameters
---
Chain pairing | bb
Alignment algorithm | Needleman-Wunsch
Similarity matrix | BLOSUM-62
SS fraction | 0.3
Gap open (HH/SS/other) | 18/18/6
Gap extend | 1
SS matrix | | | H | S | O
---|---|---|---
H | 6 | -9 | -6
S | | 6 | -6
O | | | 4
Iteration cutoff | 2
Matchmaker fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain A
(#2) with fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif, chain
spo11aa (#1), sequence alignment score = 2163.2
RMSD between 425 pruned atom pairs is 0.000 angstroms; (across all 425 pairs:
0.000)
> select clear
> color bychain
> select /spo11aa,A
13644 atoms, 13773 bonds, 850 residues, 2 models selected
> select /spo11aa,A:48-55
248 atoms, 247 bonds, 16 residues, 2 models selected
> view sel
> show sel atoms
> color sel byhetero
> style sel ball
Changed 248 atom styles
> ui tool show "Side View"
> save /Users/pcarlton/Desktop/3A-work.cxs
> select /spo11aa:49,53,54
20 atoms, 18 bonds, 3 residues, 1 model selected
> select /spo11aa:49,52,53
15 atoms, 13 bonds, 3 residues, 1 model selected
> color sel yellow
> style sel ball
Changed 15 atom styles
> color sel byhetero
> select /A:49,52,53
59 atoms, 58 bonds, 3 residues, 1 model selected
> contacts sel restrict /C log true reveal true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: True
38 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH 0.209 2.991
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 HD1 0.154 2.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C ILE 105 O 0.112 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG 0.003 3.197
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG -0.006 2.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C ILE 105 O -0.025 3.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 CD1 -0.030 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LEU 65 H -0.041 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.050 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 CE -0.070 3.250
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HA -0.074 2.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH -0.077 2.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HA -0.086 2.711
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.100 3.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 CB -0.110 3.290
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LEU 65 N -0.144 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 HB2 -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH -0.159 2.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 NZ -0.182 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 H -0.192 2.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG -0.194 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 CA -0.196 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 HE3 -0.219 2.699
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 HD1 -0.237 2.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 HH -0.271 2.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 CZ -0.274 3.674
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 CA -0.277 3.602
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 HG -0.290 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 HB2 -0.296 2.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HG -0.302 2.302
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 OG -0.307 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 HZ2 -0.313 2.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH -0.323 3.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HA -0.335 2.960
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG -0.337 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 CB -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.385 2.865
38 contacts
> contacts sel restrict /C log true reveal true select true
Allowed overlap: -0.4
H-bond overlap reduction: 0.4
Ignore contacts between atoms separated by 4 bonds or less
Detect intra-residue contacts: False
Detect intra-molecule contacts: True
38 contacts
atom1 atom2 overlap distance
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH 0.209 2.991
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 HD1 0.154 2.471
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C ILE 105 O 0.112 2.368
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CD fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG 0.003 3.197
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG -0.006 2.506
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C ILE 105 O -0.025 3.205
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 CD1 -0.030 3.355
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LEU 65 H -0.041 2.666
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.050 2.530
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 CE -0.070 3.250
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HA -0.074 2.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH -0.077 2.577
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HA -0.086 2.711
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.100 3.280
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 CB -0.110 3.290
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LEU 65 N -0.144 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 HB2 -0.152 2.852
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 HB2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH -0.159 2.659
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 NZ -0.182 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 H -0.192 2.192
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG -0.194 3.394
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 CA -0.196 3.596
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 HE3 -0.219 2.699
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 HH21 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 HD1 -0.237 2.237
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.245 3.425
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 HH -0.271 2.971
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 CZ -0.274 3.674
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 CA -0.277 3.602
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 HG -0.290 2.370
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 HB2 -0.296 2.776
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 HD2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HG -0.302 2.302
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 106 OG -0.307 2.887
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 OE2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C LYS 66 HZ2 -0.313 2.393
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A PHE 53 CG fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C TYR 104 OH -0.323 3.523
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NH1 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 HA -0.335 2.960
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 NE fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 OG -0.337 3.062
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A ARG 49 CZ fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C SER 64 CB -0.374 3.774
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/A GLU 52 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_0.um.cif #2/C GLU 107 O -0.385 2.865
38 contacts
> style sel ball
Changed 42 atom styles
> select up
177 atoms, 175 bonds, 10 residues, 1 model selected
> style sel ball
Changed 177 atom styles
> color sel byhetero
> select clear
> save /Users/pcarlton/Desktop/3A-work.cxs
——— End of log from Wed Jan 28 16:58:23 2026 ———
> view name session-start
opened ChimeraX session
> ui tool show "Find Cavities"
> select /spo11aa:45-55
144 atoms, 143 bonds, 11 residues, 1 model selected
> kvfinder #1 boxAtoms sel
> open /var/folders/25/zlmkhzy16_xbfsfgb5y03b_h0000gn/T/tmph6drunc9.bild id
> 1.5 name "cavity search box"
Opened BILD data containing 15 objects
Traceback (most recent call last):
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/kvfinder/tool.py", line 131, in <lambda>
bbox.button(qbbox.Apply).clicked.connect(lambda *args, fc=self.find_cavities:
fc(apply=True))
^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/kvfinder/tool.py", line 172, in find_cavities
run(self.session, cmd)
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/core/commands/run.py", line 49, in run
results = command.run(text, log=log, return_json=return_json)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/core/commands/cli.py", line 3237, in run
result = ci.function(session, **kw_args)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/kvfinder/cmd.py", line 73, in cmd_kvfinder
struct_input, vertices = prep_input(s, include_atoms, box_origin, box_extent,
show_box,
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/kvfinder/prep.py", line 90, in prep_input
from _pyKVFinder import _filter_pdb
ModuleNotFoundError: No module named '_pyKVFinder'
ModuleNotFoundError: No module named '_pyKVFinder'
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/kvfinder/prep.py", line 90, in prep_input
from _pyKVFinder import _filter_pdb
See log for complete Python traceback.
OpenGL version: 4.1 Metal - 89.4
OpenGL renderer: Apple M3
OpenGL vendor: Apple
Python: 3.11.9
Locale: en_US.UTF-8
Qt version: PyQt6 6.10.2, Qt 6.10.0
Qt runtime version: 6.10.1
Qt platform: cocoa
Hardware:
Hardware Overview:
Model Name: MacBook Air
Model Identifier: Mac15,13
Model Number: MXD33J/A
Chip: Apple M3
Total Number of Cores: 8 (4 performance and 4 efficiency)
Memory: 16 GB
System Firmware Version: 11881.140.96
OS Loader Version: 11881.140.96
Software:
System Software Overview:
System Version: macOS 15.6 (24G84)
Kernel Version: Darwin 24.6.0
Time since boot: 13 days, 10 hours, 8 minutes
Graphics/Displays:
Apple M3:
Chipset Model: Apple M3
Type: GPU
Bus: Built-In
Total Number of Cores: 10
Vendor: Apple (0x106b)
Metal Support: Metal 3
Displays:
Color LCD:
Display Type: Built-in Liquid Retina Display
Resolution: 2880 x 1864 Retina
Main Display: Yes
Mirror: Off
Online: Yes
Automatically Adjust Brightness: No
Connection Type: Internal
Installed Packages:
aiohappyeyeballs: 2.6.1
aiohttp: 3.13.1
aiosignal: 1.4.0
alabaster: 1.0.0
annotated-types: 0.7.0
anyio: 4.12.1
appdirs: 1.4.4
appnope: 0.1.4
asttokens: 3.0.1
attrs: 25.4.0
babel: 2.17.0
beautifulsoup4: 4.13.5
blockdiag: 3.0.0
blosc2: 3.12.2
build: 1.3.0
certifi: 2025.7.14
cftime: 1.6.5
charset-normalizer: 3.4.4
ChimeraX-AddCharge: 1.5.20
ChimeraX-AddH: 2.2.8
ChimeraX-AlignmentAlgorithms: 2.0.2
ChimeraX-AlignmentHdrs: 3.6.2
ChimeraX-AlignmentMatrices: 2.1
ChimeraX-Alignments: 3.1.2
ChimeraX-AlphaFold: 1.0.1
ChimeraX-AltlocExplorer: 1.2
ChimeraX-AmberInfo: 1.0
ChimeraX-Animations: 1.0
ChimeraX-Aniso: 1.3.2
ChimeraX-Arrays: 1.1
ChimeraX-Atomic: 1.63.0
ChimeraX-AtomicLibrary: 14.2.3
ChimeraX-AtomSearch: 2.0.1
ChimeraX-AxesPlanes: 2.4
ChimeraX-BasicActions: 1.1.3
ChimeraX-BILD: 1.0
ChimeraX-BlastProtein: 3.0.0
ChimeraX-Boltz: 1.1
ChimeraX-BondRot: 2.0.4
ChimeraX-BugReporter: 1.0.2
ChimeraX-BuildStructure: 2.13.1
ChimeraX-Bumps: 1.0
ChimeraX-BundleBuilder: 1.6.0
ChimeraX-ButtonPanel: 1.0.1
ChimeraX-CageBuilder: 1.0.1
ChimeraX-CellPack: 1.0
ChimeraX-Centroids: 1.4
ChimeraX-ChangeChains: 1.1
ChimeraX-CheckWaters: 1.5
ChimeraX-ChemGroup: 2.0.2
ChimeraX-Clashes: 2.3
ChimeraX-ColorActions: 1.0.5
ChimeraX-ColorGlobe: 1.0
ChimeraX-ColorKey: 1.5.8
ChimeraX-CommandLine: 1.3.1
ChimeraX-ConnectStructure: 2.0.1
ChimeraX-Contacts: 1.0.1
ChimeraX-Core: 1.12.dev202601270036
ChimeraX-CoreFormats: 1.2
ChimeraX-coulombic: 1.4.5
ChimeraX-Crosslinks: 1.0
ChimeraX-Crystal: 1.0
ChimeraX-CrystalContacts: 1.0.1
ChimeraX-DataFormats: 1.2.4
ChimeraX-Dicom: 1.2.7
ChimeraX-DistMonitor: 1.4.2
ChimeraX-DockPrep: 1.1.4
ChimeraX-Dssp: 2.0
ChimeraX-EMDB-SFF: 1.0
ChimeraX-ESMFold: 1.0
ChimeraX-FileHistory: 1.0.1
ChimeraX-FunctionKey: 1.0.1
ChimeraX-Geometry: 1.3
ChimeraX-gltf: 1.0
ChimeraX-Graphics: 1.4.1
ChimeraX-Hbonds: 2.5.3
ChimeraX-Help: 1.3
ChimeraX-HKCage: 1.3
ChimeraX-IHM: 1.1
ChimeraX-ImageFormats: 1.2
ChimeraX-IMOD: 1.0
ChimeraX-IO: 1.0.4
ChimeraX-ItemsInspection: 1.0.1
ChimeraX-IUPAC: 1.0
ChimeraX-KVFinder: 1.8.1
ChimeraX-Label: 1.3
ChimeraX-LightingGUI: 1.0
ChimeraX-ListInfo: 1.3.1
ChimeraX-Log: 1.2.2
ChimeraX-LookingGlass: 1.1
ChimeraX-Maestro: 1.9.2
ChimeraX-Map: 1.3
ChimeraX-MapData: 2.0
ChimeraX-MapEraser: 1.0.1
ChimeraX-MapFilter: 2.0.1
ChimeraX-MapFit: 2.0
ChimeraX-MapSeries: 2.1.1
ChimeraX-Markers: 1.0.1
ChimeraX-Mask: 1.0.2
ChimeraX-MatchMaker: 2.2.2
ChimeraX-MCopy: 1.0
ChimeraX-MCPServer: 0.2.0
ChimeraX-MDcrds: 2.17.2
ChimeraX-MedicalToolbar: 1.1
ChimeraX-Meeting: 1.0.1
ChimeraX-Minimize: 1.3.4
ChimeraX-MLP: 1.1.1
ChimeraX-mmCIF: 2.16
ChimeraX-MMTF: 2.2
ChimeraX-ModelArchive: 1.0
ChimeraX-Modeller: 1.5.23
ChimeraX-ModelPanel: 1.6
ChimeraX-ModelSeries: 1.0.1
ChimeraX-Mol2: 2.0.3
ChimeraX-Mole: 1.0
ChimeraX-Morph: 1.0.2
ChimeraX-MouseModes: 1.2
ChimeraX-Movie: 1.0.1
ChimeraX-MutationScores: 1.0
ChimeraX-Neuron: 1.0
ChimeraX-Nifti: 1.2
ChimeraX-NMRSTAR: 1.0.2
ChimeraX-NRRD: 1.2
ChimeraX-Nucleotides: 2.0.3
ChimeraX-OpenCommand: 1.15.2
ChimeraX-OrthoPick: 1.0.1
ChimeraX-PDB: 2.7.12
ChimeraX-PDBBio: 1.0.1
ChimeraX-PDBLibrary: 1.0.5
ChimeraX-PDBMatrices: 1.0
ChimeraX-PickBlobs: 1.0.1
ChimeraX-Positions: 1.0
ChimeraX-PresetMgr: 1.1.4
ChimeraX-ProfileGrids: 1.5
ChimeraX-PubChem: 2.2
ChimeraX-ReadPbonds: 1.0.1
ChimeraX-Registration: 1.1.2
ChimeraX-RemoteControl: 1.0
ChimeraX-RenderByAttr: 1.7
ChimeraX-RenumberResidues: 1.1
ChimeraX-ResidueFit: 1.0.1
ChimeraX-RestServer: 1.3.3
ChimeraX-RNALayout: 1.0
ChimeraX-RotamerLibMgr: 4.0
ChimeraX-RotamerLibsDunbrack: 2.0
ChimeraX-RotamerLibsDynameomics: 2.0
ChimeraX-RotamerLibsRichardson: 2.0
ChimeraX-SaveCommand: 1.5.2
ChimeraX-Scenes: 0.3.1
ChimeraX-SchemeMgr: 1.0
ChimeraX-SDF: 2.0.3
ChimeraX-Segger: 1.0
ChimeraX-Segment: 1.0.1
ChimeraX-Segmentations: 3.5.10
ChimeraX-SelInspector: 1.0
ChimeraX-SeqView: 2.17.4
ChimeraX-Shape: 1.1
ChimeraX-Shell: 1.0.1
ChimeraX-Shortcuts: 1.2.1
ChimeraX-ShowSequences: 1.0.3
ChimeraX-SideView: 1.0.1
ChimeraX-SimilarStructures: 1.0.1
ChimeraX-Smiles: 2.1.2
ChimeraX-SmoothLines: 1.0
ChimeraX-SNFG: 1.0
ChimeraX-SpaceNavigator: 1.0
ChimeraX-StdCommands: 1.19.2
ChimeraX-STL: 1.0.1
ChimeraX-Storm: 1.0
ChimeraX-StructMeasure: 1.2.1
ChimeraX-Struts: 1.0.1
ChimeraX-Surface: 1.0.1
ChimeraX-SwapAA: 2.0.1
ChimeraX-SwapRes: 2.5.2
ChimeraX-TapeMeasure: 1.0
ChimeraX-TaskManager: 1.0
ChimeraX-Test: 1.0
ChimeraX-Toolbar: 1.2.3
ChimeraX-ToolshedUtils: 1.2.4
ChimeraX-Topography: 1.0
ChimeraX-ToQuest: 1.0
ChimeraX-Tug: 1.0.1
ChimeraX-UI: 1.50.1
ChimeraX-Umap: 1.0
ChimeraX-uniprot: 2.3.2
ChimeraX-UnitCell: 1.0.1
ChimeraX-ViewDock: 1.5.2
ChimeraX-VIPERdb: 1.0
ChimeraX-Vive: 1.1
ChimeraX-VolumeMenu: 1.0.1
ChimeraX-vrml: 1.0
ChimeraX-VTK: 1.0
ChimeraX-WavefrontOBJ: 1.0
ChimeraX-WebCam: 1.0.2
ChimeraX-WebServices: 1.1.5
ChimeraX-Zone: 1.0.1
click: 8.3.1
colorama: 0.4.6
comm: 0.2.3
contourpy: 1.3.3
coverage: 7.13.2
cxservices: 1.2.3
cycler: 0.12.1
Cython: 3.1.4
debugpy: 1.8.19
decorator: 5.2.1
docutils: 0.21.2
executing: 2.2.1
filelock: 3.19.1
fonttools: 4.61.1
frozenlist: 1.8.0
funcparserlib: 2.0.0a0
glfw: 2.10.0
grako: 3.16.5
h11: 0.16.0
h5py: 3.15.1
html2text: 2025.4.15
httpcore: 1.0.9
httpx: 0.28.1
httpx-sse: 0.4.3
idna: 3.11
ihm: 2.2
imagecodecs: 2024.6.1
imagesize: 1.4.1
iniconfig: 2.3.0
ipykernel: 7.1.0
ipython: 9.9.0
ipython_pygments_lexers: 1.1.1
ipywidgets: 8.1.8
jedi: 0.19.2
Jinja2: 3.1.6
jsonschema: 4.26.0
jsonschema-specifications: 2025.9.1
jupyter_client: 8.8.0
jupyter_core: 5.9.1
jupyterlab_widgets: 3.0.16
kiwisolver: 1.4.9
line_profiler: 5.0.0
lxml: 6.0.2
lz4: 4.3.2
Markdown: 3.8.2
MarkupSafe: 3.0.3
matplotlib: 3.10.7
matplotlib-inline: 0.2.1
mcp: 1.18.0
msgpack: 1.1.1
multidict: 6.7.1
narwhals: 2.15.0
ndindex: 1.10.1
nest-asyncio: 1.6.0
netCDF4: 1.6.5
networkx: 3.3
nibabel: 5.2.0
nptyping: 2.5.0
numexpr: 2.14.1
numpy: 2.4.1
numpy: 1.26.4
OpenMM: 8.4.0
openvr: 1.26.701
packaging: 25.0
ParmEd: 4.2.2
parso: 0.8.5
pep517: 0.13.1
pexpect: 4.9.0
pickleshare: 0.7.5
pillow: 11.3.0
pip: 25.2
pkginfo: 1.12.1.2
platformdirs: 4.5.1
plotly: 6.5.2
pluggy: 1.6.0
prompt_toolkit: 3.0.52
propcache: 0.4.1
psutil: 7.0.0
ptyprocess: 0.7.0
pure_eval: 0.2.3
py-cpuinfo: 9.0.0
pybind11: 3.0.1
pycollada: 0.8
pydantic: 2.12.5
pydantic-settings: 2.12.0
pydantic_core: 2.41.5
pydicom: 2.4.4
Pygments: 2.18.0
pyKVFinder: 0.9.0
pynmrstar: 3.3.6
pynrrd: 1.0.0
PyOpenGL: 3.1.10
PyOpenGL-accelerate: 3.1.10
pyopenxr: 1.1.4501
pyparsing: 3.3.2
pyproject_hooks: 1.2.0
PyQt6-commercial: 6.10.2
PyQt6-Qt6: 6.10.1
PyQt6-WebEngine-commercial: 6.10.0
PyQt6-WebEngine-Qt6: 6.10.1
PyQt6_sip: 13.10.3
pytest: 9.0.2
pytest-cov: 7.0.0
python-dateutil: 2.9.0.post0
python-dotenv: 1.2.1
python-multipart: 0.0.22
pyzmq: 27.1.0
qtconsole: 5.7.0
QtPy: 2.4.3
qtshim: 1.2
RandomWords: 0.4.0
referencing: 0.37.0
requests: 2.32.5
roman-numerals: 4.1.0
rpds-py: 0.30.0
scipy: 1.14.0
setuptools: 80.9.0
sfftk-rw: 0.8.1
six: 1.17.0
snowballstemmer: 3.0.1
sortedcontainers: 2.4.0
soupsieve: 2.8.3
Sphinx: 9.0.4
sphinx-autodoc-typehints: 3.6.1
sphinxcontrib-applehelp: 2.0.0
sphinxcontrib-blockdiag: 3.0.0
sphinxcontrib-devhelp: 2.0.0
sphinxcontrib-htmlhelp: 2.1.0
sphinxcontrib-jsmath: 1.0.1
sphinxcontrib-qthelp: 2.0.0
sphinxcontrib-serializinghtml: 2.0.0
sse-starlette: 3.2.0
stack-data: 0.6.3
starlette: 0.52.1
superqt: 0.7.6
tables: 3.10.2
tcia_utils: 1.5.1
tifffile: 2025.3.13
tinyarray: 1.2.5
tomlkit: 0.14.0
tornado: 6.5.4
traitlets: 5.14.3
typing-inspection: 0.4.2
typing_extensions: 4.15.0
urllib3: 2.6.3
uvicorn: 0.40.0
wcwidth: 0.5.0
webcolors: 24.11.1
wheel: 0.45.1
wheel-filename: 1.4.2
widgetsnbextension: 4.0.15
yarl: 1.22.0
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