Molecule Display

See also: colors, tips on preparing images, volume display, geometric objects

Atoms/Bonds

Several molecular display styles (representations) are available in Chimera. Atoms/bonds can be shown as:

wire stick ball-and-stick sphere

A model can only have one wire linewidth, but individual atoms and bonds can be shown in different representations. Atom and bond displays can be combined with ribbons and surfaces. See also: presets, New Molecules preferences

The command represent sets atom/bond styles, bondrepr sets bond styles, and linewidth changes wire linewidth. Atom/bond styles and wire linewidth can also be changed using the Actions menu, the molecule model attributes panel, and the Selection Inspector. Ball display radius is the product of the atomic VDW radius and the ball scale attribute of a molecule model (default 0.25). Stick radius is the product of the individual bond radius (default 0.2 for all bonds) and the stick scale attribute of a molecule model (default 1.0). Ways to change attribute values include the command setattr and the Selection Inspector. Different linewidth, ball-scale, and stick-scale values can also be specified in the New Molecules preferences.

Pseudobonds are drawn to show connections other than covalent bonds. For example, they can represent clashes, hydrogen bonds, or distance measurements. Pseudobond styles can be changed using the pseudobond attributes panel and the Selection Inspector.

In addition:

Ribbons

Protein and nucleic acid chains can be shown with ribbons. Protein helix and strand assignments are taken from the input structure file or generated with ksdssp. For nucleic acids, the ribbon simply follows the backbone. See also: PipesAndPlanks, Nucleotides

flat ribbon edged ribbon rounded ribbon

Built-in ribbon styles include:

Ribbon segments for individual residues can be shown and hidden independently and displayed in different styles. New ribbon styles, scalings (secondary-structure-dependent width and height), and residue classes (which atoms define the ribbon path) can be created using Ribbon Style Editor. The command ribbon displays ribbons; style can be adjusted with ribrepr, scaling with ribscale, and residue class with ribclass. Ribbon display and style can also be controlled with the Actions menu; ribbon display, style, and scaling can be controlled in the residue section of the molecule model attributes panel or Selection Inspector.

The ribbon path is interpolated and may deviate from the exact positions of the backbone atoms (more...). The method of path calculation can be set with ribspline or in the molecule section of the molecule model attributes panel or Selection Inspector.

The insides of ribbons in protein helices can be colored separately using the Color Actions dialog, the molecule model attributes panel, or the command setattr.

SES-SAS diagram
Image courtesy of Sebastian Daberdaku 

Molecular Surfaces

Chimera shows solvent-excluded molecular surfaces, composed of probe contact, toroidal, and reentrant surface. These differ from solvent-accessible surfaces, which are traced out by the probe center.

Molecular surface styles are:

A molecular surface model can only have one style, but molecular surface patches for individual atoms can be shown/hidden independently and can vary in color and transparency.

The atoms in a molecular model are automatically partitioned into categories for surfacing: ligand, ions, solvent, or main. By default, protein and nucleic acid chains are classified as main, and if multiple chains are in contact, they will be enclosed in a single surface. However, if separate surfaces for the separate chains are preferred, either of the following can be used:

When a molecular surface is computed, total solvent-excluded and and solvent-accessible surface areas are reported in the Reply Log, along with the values for each disconnected part, or component. The values are calculated analytically. Multi-component surfaces are common; for example, a main surface could include one or more completely enclosed interior pockets, and a ligand surface could separately enclose each of multiple ligand molecules.

Analytical solvent-excluded and solvent-accessible surface areas per atom and residue are assigned as attributes named areaSES and areaSAS, respectively. These may include contributions from more than one component. For example, one side of an atom could form part of an interior cavity while the other side could form part of the exterior surface. Calculating relative exposure (a normalized surface area) may be helpful for classifying amino acid residues as buried or exposed.

The command surface displays molecular surface, surfrepr sets which style is shown, and surftransparency adjusts surface transparency. Molecular surface display, style, and transparency can also be controlled with the Actions menu, the molecular surface attributes panel, the Selection Inspector, and the command setattr. Except for the Actions menu, these also allow changes in probe radius, vertex density, mesh line width, and dot size. Parameters for subsequently generated molecular surfaces can be set in the New Surfaces preferences.

In Chimera, molecular surfaces are created with embedded software from the MSMS package, described in:

Reduced surface: an efficient way to compute molecular surfaces. Sanner MF, Olson AJ, Spehner JC. Biopolymers. 1996 Mar;38(3):305-20.
MSMS surface calculations may fail numerically, especially on large structures; see surface calculation failures and workarounds.

Dot molecular surfaces in MS/DMS format can also be displayed in Chimera.

VDW Surfaces

A van der Waals (VDW) surface differs from a molecular surface in that fine crevices are not smoothed. A VDW dot surface can be displayed with the command vdw and its dot density adjusted with vdwdensity. The VDW dot size and dot density can also be adjusted in the the molecule model attributes panel. Note that the sphere representation also shows the VDW surface.

Chimera also displays other surfaces that are not necessarily molecular.


UCSF Computer Graphics Laboratory / February 2018