![[ChimeraX Issue Tracking System]](/trac/ChimeraX/chrome/site/ChimeraX-icon.svg){kind=icon}
Opened 3 months ago
Last modified 3 months ago
#18731 closed defect
ChimeraX bug report submission — at Initial Version
| Reported by: | Owned by: | ||
|---|---|---|---|
| Priority: | normal | Milestone: | |
| Component: | General Controls | 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: 1.11.dev202506162128 (2025-06-16 21:28:04 UTC)
Description
Tried to set the Cα RMSD as a default header in the sequence alignment window; clicking "save" caused this error.
Log:
UCSF ChimeraX version: 1.11.dev202506162128 (2025-06-16)
© 2016-2025 Regents of the University of California. All rights reserved.
> open /Users/pcarlton/Desktop/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
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_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_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_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_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_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_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_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 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_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_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_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_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_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_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_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_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_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_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_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_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_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 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_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_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_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_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_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_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_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_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_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 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_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_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_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_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_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_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_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
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 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_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_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_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_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_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_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 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_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_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_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_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_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_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_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_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_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_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_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 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_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_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_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_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_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_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_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_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_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 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_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 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_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_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_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_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 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
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/D PRO 120 HB3 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_1.um.cif #2/A THR 300 OG1 -0.057 2.557
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
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/D PRO 118 HG2 fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_3.um.cif #4/A TYR 358 OH -0.058 2.558
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
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 HE22 -0.064 2.064
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
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 NH1 -0.072 2.697
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
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 TYR 358 OH -0.077 3.277
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
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 NZ -0.083 3.333
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 NZ -0.083 2.708
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
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 CG -0.087 2.787
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 CYS 354 O -0.088 3.268
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
fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/D PRO 118 CB fold_k00cele_spo_11x2_dsb123_mg4_splitdna2_model_4.um.cif #5/A TYR 358 OH -0.235 3.435
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 dsb3tspoA
1264 atoms, 647 bonds, 409 residues, 30 models selected
> select spoABdsb3
2386 atoms, 1281 bonds, 735 residues, 30 models selected
> sequence align sel
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: IV94GTYABZISH5QD
Webservices job finished: IV94GTYABZISH5QD
> select intersect /spo11a
1214 atoms, 617 bonds, 421 residues, 30 models selected
> sequence align sel
Alignment identifier is 2
Showing conservation header ("seq_conservation" residue attribute) for
alignment 2
Webservices job id: MRJ726GQ943QECC2
Webservices job finished: MRJ726GQ943QECC2
> undo
> select up
12425 atoms, 11940 bonds, 735 residues, 30 models selected
> select up
50153 atoms, 50358 bonds, 3177 residues, 30 models selected
Populating font family aliases took 346 ms. Replace uses of missing font
family "Times" with one that exists to avoid this cost.
> sequence header 2 rmsd setting initially_shown True
[Repeated 1 time(s)]Traceback (most recent call last):
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 458, in _save
for opt in self._get_actionable_options():
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 420, in
_get_actionable_options
options = self.options_panel.options(self.options_panel.current_category())
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
See log for complete Python traceback.
Traceback (most recent call last):
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 458, in _save
for opt in self._get_actionable_options():
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 420, in
_get_actionable_options
options = self.options_panel.options(self.options_panel.current_category())
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
See log for complete Python traceback.
Traceback (most recent call last):
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 458, in _save
for opt in self._get_actionable_options():
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 420, in
_get_actionable_options
options = self.options_panel.options(self.options_panel.current_category())
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
See log for complete Python traceback.
Traceback (most recent call last):
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 458, in _save
for opt in self._get_actionable_options():
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 420, in
_get_actionable_options
options = self.options_panel.options(self.options_panel.current_category())
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
AttributeError: 'CategorizedOptionsPanel' object has no attribute
'currentIndex'
File
"/Applications/ChimeraX_Daily.app/Contents/Library/Frameworks/Python.framework/Versions/3.11/lib/python3.11/site-
packages/chimerax/ui/options/containers.py", line 279, in current_category
return self._tabs_widget.tabText(self.currentIndex())
^^^^^^^^^^^^^^^^^
See log for complete Python traceback.
OpenGL version: 4.1 Metal - 89.4
OpenGL renderer: Apple M3
OpenGL vendor: Apple
Python: 3.11.4
Locale: en_US.UTF-8
Qt version: PyQt6 6.8.1, Qt 6.8.2
Qt runtime version: 6.8.2
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, 7 hours, 4 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:
alabaster: 1.0.0
appdirs: 1.4.4
appnope: 0.1.4
asttokens: 3.0.0
auditwheel: 6.4.0
babel: 2.17.0
beautifulsoup4: 4.13.3
blockdiag: 3.0.0
blosc2: 3.4.0
build: 1.2.2.post1
certifi: 2023.11.17
cftime: 1.6.4.post1
charset-normalizer: 3.4.2
ChimeraX-AddCharge: 1.5.19
ChimeraX-AddH: 2.2.7
ChimeraX-AlignmentAlgorithms: 2.0.2
ChimeraX-AlignmentHdrs: 3.6.1
ChimeraX-AlignmentMatrices: 2.1
ChimeraX-Alignments: 3.0
ChimeraX-AlphaFold: 1.0.1
ChimeraX-AltlocExplorer: 1.1.2
ChimeraX-AmberInfo: 1.0
ChimeraX-Aniso: 1.3.1
ChimeraX-Arrays: 1.1
ChimeraX-Atomic: 1.60.9
ChimeraX-AtomicLibrary: 14.1.19
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: 1.0
ChimeraX-BondRot: 2.0.4
ChimeraX-BugReporter: 1.0.2
ChimeraX-BuildStructure: 2.13.1
ChimeraX-Bumps: 1.0
ChimeraX-BundleBuilder: 1.5.1
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: 1.3.0
ChimeraX-ConnectStructure: 2.0.1
ChimeraX-Contacts: 1.0.1
ChimeraX-Core: 1.11.dev202506162128
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: 2.5.1
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: 1.7
ChimeraX-Label: 1.1.14
ChimeraX-ListInfo: 1.2.2
ChimeraX-Log: 1.2
ChimeraX-LookingGlass: 1.1
ChimeraX-Maestro: 1.9.1
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-MDcrds: 2.11
ChimeraX-MedicalToolbar: 1.1
ChimeraX-Meeting: 1.0.1
ChimeraX-MLP: 1.1.1
ChimeraX-mmCIF: 2.16
ChimeraX-MMTF: 2.2
ChimeraX-ModelArchive: 1.0
ChimeraX-Modeller: 1.5.19
ChimeraX-ModelPanel: 1.5.1
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: 1.15.1
ChimeraX-OrthoPick: 1.0.1
ChimeraX-PDB: 2.7.10
ChimeraX-PDBBio: 1.0.1
ChimeraX-PDBLibrary: 1.0.4
ChimeraX-PDBMatrices: 1.0
ChimeraX-PickBlobs: 1.0.1
ChimeraX-Positions: 1.0
ChimeraX-PresetMgr: 1.1.3
ChimeraX-ProfileGrids: 1.1.3
ChimeraX-PubChem: 2.2
ChimeraX-ReadPbonds: 1.0.1
ChimeraX-Registration: 1.1.2
ChimeraX-RemoteControl: 1.0
ChimeraX-RenderByAttr: 1.6.3
ChimeraX-RenumberResidues: 1.1
ChimeraX-ResidueFit: 1.0.1
ChimeraX-RestServer: 1.3.1
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-SchemeMgr: 1.0
ChimeraX-SDF: 2.0.3
ChimeraX-Segger: 1.0
ChimeraX-Segment: 1.0.1
ChimeraX-Segmentations: 3.5.7
ChimeraX-SelInspector: 1.0
ChimeraX-SeqView: 2.17.2
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-SpaceNavigator: 1.0
ChimeraX-StdCommands: 1.19.1
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: 1.46.1
ChimeraX-Umap: 1.0
ChimeraX-uniprot: 2.3.1
ChimeraX-UnitCell: 1.0.1
ChimeraX-ViewDock: 0.1
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
colorama: 0.4.6
comm: 0.2.2
contourpy: 1.3.2
coverage: 7.9.1
cxservices: 1.2.3
cycler: 0.12.1
Cython: 3.0.12
debugpy: 1.8.14
decorator: 5.2.1
docutils: 0.21.2
executing: 2.2.0
filelock: 3.18.0
fonttools: 4.58.4
funcparserlib: 2.0.0a0
glfw: 2.9.0
grako: 3.16.5
h5py: 3.14.0
html2text: 2024.2.26
idna: 3.10
ihm: 2.2
imagecodecs: 2024.6.1
imagesize: 1.4.1
iniconfig: 2.1.0
ipykernel: 6.29.5
ipython: 8.26.0
ipywidgets: 8.1.7
jedi: 0.19.1
Jinja2: 3.1.6
jupyter_client: 8.6.3
jupyter_core: 5.8.1
jupyterlab_widgets: 3.0.15
kiwisolver: 1.4.8
line_profiler: 4.2.0
lxml: 5.3.1
lz4: 4.4.4
MarkupSafe: 3.0.2
matplotlib: 3.10.1
matplotlib-inline: 0.1.7
msgpack: 1.1.0
ndindex: 1.10.0
nest-asyncio: 1.6.0
netCDF4: 1.6.5
networkx: 3.3
nibabel: 5.2.0
nptyping: 2.5.0
numexpr: 2.11.0
numpy: 1.26.4
OpenMM: 8.2.0
openvr: 1.26.701
packaging: 24.2
ParmEd: 4.2.2
parso: 0.8.4
pep517: 0.13.1
pexpect: 4.9.0
pickleshare: 0.7.5
pillow: 10.4.0
pip: 25.0.1
pkginfo: 1.11.1
platformdirs: 4.3.8
pluggy: 1.6.0
prompt_toolkit: 3.0.51
psutil: 7.0.0
ptyprocess: 0.7.0
pure_eval: 0.2.3
py-cpuinfo: 9.0.0
pycollada: 0.8
pydicom: 2.4.4
pyelftools: 0.32
Pygments: 2.18.0
pynmrstar: 3.3.5
pynrrd: 1.0.0
PyOpenGL: 3.1.9
PyOpenGL-accelerate: 3.1.9
pyopenxr: 1.1.4501
pyparsing: 3.2.3
pyproject_hooks: 1.2.0
PyQt6-commercial: 6.8.1
PyQt6-Qt6: 6.8.2
PyQt6-WebEngine-commercial: 6.8.0
PyQt6-WebEngine-Qt6: 6.8.2
PyQt6_sip: 13.10.0
pytest: 8.4.0
pytest-cov: 6.2.1
python-dateutil: 2.9.0.post0
pytz: 2025.2
pyzmq: 27.0.0
qtconsole: 5.5.2
QtPy: 2.4.3
qtshim: 1.1
RandomWords: 0.4.0
requests: 2.32.3
roman-numerals-py: 3.1.0
scipy: 1.14.0
Send2Trash: 1.8.3
SEQCROW: 1.9.2
setuptools: 78.1.0
sfftk-rw: 0.8.1
six: 1.16.0
snowballstemmer: 3.0.1
sortedcontainers: 2.4.0
soupsieve: 2.7
Sphinx: 8.2.3
sphinx-autodoc-typehints: 3.1.0
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
stack-data: 0.6.3
superqt: 0.7.1
tables: 3.10.2
tcia_utils: 1.5.1
tifffile: 2025.3.13
tinyarray: 1.2.4
tornado: 6.5.1
traitlets: 5.14.3
typing_extensions: 4.14.0
tzdata: 2025.2
urllib3: 2.4.0
wcwidth: 0.2.13
webcolors: 24.11.1
wheel: 0.45.1
wheel-filename: 1.4.2
widgetsnbextension: 4.0.14
Note:
See TracTickets
for help on using tickets.
