Difference between revisions of "H Add"
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− | + | [[h_add]] uses a primitive algorithm to add hydrogens onto a molecule. | |
− | + | = Usage and Algorithm Notes = | |
+ | PyMOL fills missing valences but does no optimization of hydroxyl rotamers. Also, many crystal structures have bogus or arbitrary ASN/GLN/HIS orientations. Getting the proper amide rotamers and imidazole tautomers & protonation states assigned is a nontrivial computational chemistry project involving electrostatic potential calculations and a combinatorial search. There's also the issue of solvent & counter-ions present in systems like aspartyl proteases with adjacent carboxylates . | ||
+ | |||
+ | == Accessing Through GUI == | ||
[A]->hydrogens->add | [A]->hydrogens->add | ||
− | + | == Syntax == | |
<source lang="python"> | <source lang="python"> | ||
− | + | # normal usage | |
+ | h_add (selection) | ||
+ | |||
+ | # API usage | ||
+ | cmd.h_add( string selection="(all)" ) | ||
</source> | </source> | ||
− | |||
− | |||
− | |||
see also [[h_fill]] | see also [[h_fill]] | ||
[[Category:Commands|h]] | [[Category:Commands|h]] |
Revision as of 17:35, 9 September 2008
h_add uses a primitive algorithm to add hydrogens onto a molecule.
Usage and Algorithm Notes
PyMOL fills missing valences but does no optimization of hydroxyl rotamers. Also, many crystal structures have bogus or arbitrary ASN/GLN/HIS orientations. Getting the proper amide rotamers and imidazole tautomers & protonation states assigned is a nontrivial computational chemistry project involving electrostatic potential calculations and a combinatorial search. There's also the issue of solvent & counter-ions present in systems like aspartyl proteases with adjacent carboxylates .
Accessing Through GUI
[A]->hydrogens->add
Syntax
# normal usage
h_add (selection)
# API usage
cmd.h_add( string selection="(all)" )
see also h_fill