Minimize Structure
Minimize Structure energy-minimizes molecule models, optionally
holding some atoms fixed. Minimization routines are provided by
MMTK,
which is included with Chimera.
Amber
parameters are used for standard residues, and Amber's
Antechamber module (also included with Chimera)
is used to assign parameters to nonstandard residues.
Minimize Structure is in early development and
has several limitations.
There are several ways to start
Minimize Structure, a tool in the Structure Editing category.
It is also implemented as the command
minimize.
Models to minimize
can be chosen from the list with the left mouse button.
Ctrl-click toggles the status of an individual model.
To choose a block of models without dragging,
click on the first (or last) and then Shift-click
on the last (or first) in the desired block.
All chosen models are treated as a single system for energy calculations;
other models are ignored.
Currently, only
steepest descent minimization is performed.
- Steps (default 100)
- maximum number of minimization steps
- Step size (A) (default 0.02 Å) - initial step length
- Update interval (default 10)
- how frequently to update the display, in terms of minimization steps
- Fixed atoms
- atoms to hold in place during minimization:
- none (default) - all atoms will be allowed to move
- selected - any
selected atoms
should be held fixed, all other atoms allowed to move
- unselected - any
selected atoms
should be allowed to move, all other atoms held fixed
- Memorize options chosen in subsequent dialogs
- as explained below, Dock Prep
and further tools may be called to prepare structures for minimization;
this option specifies saving their settings in the
preferences file
for future uses of Minimize Structure
- Use previously memorized options, if any
- use settings saved with the preceding option in a prior use of Minimize
Structure
- Neither memorize nor use memorized options
- do not use previously saved settings; show the dialogs so that
settings can be chosen explicitly for this use of Minimize Structure,
but do not save the settings
Clicking Minimize dismisses the dialog
(unless the option to Keep dialog up after Minimize is checked)
and may call Dock Prep to
perform several tasks
to prepare the system for energy calculations.
In turn, Dock Prep
may call additional tools:
- AddH to add hydrogens.
If Minimize has already been clicked,
the selection
will be adjusted prior to minimization to include any newly attached atoms
in the fixed and movable sets.
Note that any other models in the vicinity will influence hydrogen
placement even if hydrogens are not being added to those other models.
If such interactions are not desired, the other models should
be closed beforehand.
- Add Charge
to associate atoms with partial charges and other
force field parameters.
Required even when
alternative charges will be used.
It is sometimes useful to run
Dock Prep independent of
Minimize Structure beforehand, then skip all tasks when it reappears
after Minimize is clicked:
- adding hydrogens separately beforehand allows them
to be deleted or repositioned as needed prior to minimization
- adding charges separately beforehand allows
alternative charges
to be specified prior to minimization
Close dismisses the Minimize Structure dialog.
Help opens this manual page in a browser window.
Force Field Parameters
Different procedures are used to assign parameters to
standard residues,
monatomic ions, and
nonstandard residues.
Standard residues include water, standard amino acids,
standard nucleic acids, and a few common variants and capping groups.
- Add Charge
recognizes standard residues based on their atom and residue names
and assigns Amber residue names.
- Add Charge
assigns Amber ff99 atomic partial charges
(details).
- Minimize Structure uses the Amber residue names to associate
standard residues with Amber ff99 parameters other than charges.
Monatomic ions are assigned user-specified net charges and
Amber ff99 VDW parameters. Only the ions in ff99 are handled:
Na+, K+, Rb+, Cs+,
Mg2+, Ca2+, Zn2+,
and Cl–.
Nonstandard residues are all residues not recognized as
standard residues or
monatomic ions.
- Add Charge uses
Amber's Antechamber module (included with Chimera)
to assign GAFF types and calculate atomic
partial charges within each nonstandard residue.
It is necessary to specify the formal charge of each nonstandard residue
and which charge
calculation method should be used.
Publications involving
Antechamber use should cite:
Automatic atom type and bond type perception in molecular mechanical
calculations.
Wang J, Wang W, Kollman PA, Case DA.
J Mol Graph Model. 2006 Oct;25(2):247-60.
- Minimize Structure uses the GAFF types to associate
nonstandard residues with parameters other than charges.
The GAFF atom types and associated parameters are described
online
and in:
Development and testing of a general amber force field.
Wang J, Wolf RM, Caldwell JW, Kollman PA, Case DA.
J Comput Chem. 2004 Jul 15;25(9):1157-74.
User-Specified Partial Charges
For nonstandard residues,
arbitrary partial charges (such as obtained from the literature
or parameter databases)
can be specified. To do so:
- run Dock Prep independent
of Minimize Structure to perform any necessary tasks
including charge addition (thus running
Add Charge)
- reassign the charge attribute of the atoms
to the desired values (using
Define Attribute,
defattr,
or setattr)
- run Minimize Structure and turn off all options in the ensuing
Dock Prep dialog, as
the necessary tasks have already been performed
This procedure will not work for atoms in
standard residues, because
Minimize Structure will always associate those atoms
with the standard parameters, including charges.
Limitations
Lack of access to many settings.
There is no way to specify several MMTK settings, including
minimization algorithm and
force field options such as distance cutoffs.
MMTK defaults are used.
No choice of force field.
The only force fields in MMTK suitable for biomolecular simulations are
Amber ff94 and ff99. Minimize Structure uses ff99 for
standard residues and GAFF
for nonstandard residues.
Limited ability to use arbitrary parameters.
It is difficult to change or add parameters.
For nonstandard residues only,
arbitrary partial charges can be specified.
UCSF Computer Graphics Laboratory / July 2010