Difference between revisions of "Sidechaincenters"
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Revision as of 11:36, 25 November 2010
Pseudo single-atom representation of sidechains. Usefull for pair potential calculation for example.
Example
fetch 2x19
pseudo_sidechaincenters scc, 2x19
The Script
'''
(c) 2010 Thomas Holder
'''
from pymol import cmd
from chempy import Atom, cpv, models
sidechaincenteratoms = {
'GLY': ('CA',),
'ALA': ('CB',),
'VAL': ('CG1', 'CG2'),
'ILE': ('CD1',),
'LEU': ('CD1', 'CD2'),
'SER': ('OG',),
'THR': ('OG1', 'CG2'),
'ASP': ('OD1', 'OD2'),
'ASN': ('OD1', 'ND2'),
'GLU': ('OE1', 'OE2'),
'GLN': ('OE1', 'NE2'),
'LYS': ('NZ',),
'ARG': ('NE', 'NH1', 'NH2'),
'CYS': ('SG',),
'MET': ('SD',),
'MSE': ('SE',),
'PHE': ('CG', 'CD1', 'CD2', 'CE1', 'CE2', 'CZ'),
'TYR': ('CG', 'CD1', 'CD2', 'CE1', 'CE2', 'CZ', 'OH'),
'TRP': ('CG', 'CD1', 'CD2', 'NE1', 'CE2', 'CE3', 'CZ2', 'CZ3'),
'HIS': ('CG', 'ND1', 'CD2', 'CE1', 'NE2'),
'PRO': ('CB', 'CG', 'CD'),
}
def pseudo_sidechaincenters(object='scc', selection='all', name='PS1', method='bahar1996'):
'''
DESCRIPTION
Creates an object with sidechain representing pseudoatoms for each residue
in selection.
Sidechain interaction centers as defined by Bahar and Jernigan 1996
http://www.ncbi.nlm.nih.gov/pubmed/9080182
USAGE
pseudo_sidechaincenters object [, selection]
ARGUMENTS
object = string: name of object to create
selection = string: atoms to consider {default: (all)}
name = string: atom name of pseudoatoms {default: PS1}
SEE ALSO
pseudo_sidechaincentroids, pseudoatom
'''
atmap = dict()
if method == 'bahar1996':
modelAll = cmd.get_model('(%s) and resn %s' % (selection, '+'.join(sidechaincenteratoms)))
for at in modelAll.atom:
if at.name in sidechaincenteratoms[at.resn]:
atmap.setdefault((at.segi, at.chain, at.resn, at.resi), []).append(at)
elif method == 'centroid':
modelAll = cmd.get_model('(%s) and not (hydro or name C+N+O)' % selection)
for at in modelAll.atom:
atmap.setdefault((at.segi, at.chain, at.resn, at.resi), []).append(at)
else:
print 'Error: unknown method'
return
model = models.Indexed()
for centeratoms in atmap.itervalues():
center = cpv.get_null()
for at in centeratoms:
center = cpv.add(center, at.coord)
center = cpv.scale(center, 1./len(centeratoms))
atom = Atom()
atom.coord = center
atom.index = model.nAtom + 1
atom.name = name
for key in ['resn','chain','resi','resi_number','hetatm','ss','segi']:
atom.__dict__[key] = at.__dict__[key]
model.add_atom(atom)
model.update_index()
if object in cmd.get_object_list():
cmd.delete(object)
cmd.load_model(model, object)
return model
def pseudo_sidechaincentroids(object='scc', selection='all', name='PS1'):
'''
DESCRIPTION
Sidechain centroids. Works like "pseudo_sidechaincenters", but the
pseudoatom is the centroid of all atoms except hydrogens and backbone atoms
(N, C and O).
NOTE
If you want to exclude C-alpha atoms from sidechains, modify the selection
like in this example:
pseudo_sidechaincentroids newobject, all and (not name CA or resn GLY)
SEE ALSO
pseudo_sidechaincenters
'''
return pseudo_sidechaincenters(object, selection, name, method='centroids')
cmd.extend('pseudo_sidechaincenters', pseudo_sidechaincenters)
cmd.extend('pseudo_sidechaincentroids', pseudo_sidechaincentroids)
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