Polarpairs: Difference between revisions
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(Created page with "Find polar pairs with the cmd.find_pairs function and return them as a list of atom pairs. It finds (more or less) the same contacts like [[distance|cmd.distance(m...") |
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for p in pairs: | for p in pairs: | ||
dist = cmd.get_distance('(%s`%s)' % p[0], '(%s`%s)' % p[1]) | dist = cmd.get_distance('(%s`%s)' % p[0], '(%s`%s)' % p[1]) | ||
print p, 'Distance: %.2f' % (dist) | print(p, 'Distance: %.2f' % (dist)) | ||
</source> | </source> | ||
| Line 19: | Line 19: | ||
from pymol import cmd | from pymol import cmd | ||
def polarpairs(sel1, sel2, cutoff=4.0, angle=63.0, name='', quiet=1): | def polarpairs(sel1, sel2, cutoff=4.0, angle=63.0, name='', state=1, quiet=1): | ||
''' | ''' | ||
ARGUMENTS | ARGUMENTS | ||
| Line 38: | Line 38: | ||
cutoff = float(cutoff) | cutoff = float(cutoff) | ||
quiet = int(quiet) | quiet = int(quiet) | ||
state = int(state) | |||
if angle == 'default': | if angle == 'default': | ||
angle = cmd.get('h_bond_max_angle', cmd.get_object_list(sel1)[0]) | angle = cmd.get('h_bond_max_angle', cmd.get_object_list(sel1)[0]) | ||
| Line 43: | Line 44: | ||
mode = 1 if angle > 0 else 0 | mode = 1 if angle > 0 else 0 | ||
x = cmd.find_pairs('(%s) and donors' % sel1, '(%s) and acceptors' % sel2, | x = cmd.find_pairs('(%s) and donors' % sel1, '(%s) and acceptors' % sel2, | ||
state, state, | |||
cutoff=cutoff, mode=mode, angle=angle) + \ | cutoff=cutoff, mode=mode, angle=angle) + \ | ||
cmd.find_pairs('(%s) and acceptors' % sel1, '(%s) and donors' % sel2, | cmd.find_pairs('(%s) and acceptors' % sel1, '(%s) and donors' % sel2, | ||
state, state, | |||
cutoff=cutoff, mode=mode, angle=angle) | cutoff=cutoff, mode=mode, angle=angle) | ||
x = sorted(set(x)) | x = sorted(set(x)) | ||
if not quiet: | if not quiet: | ||
print 'Settings: cutoff=%.1fangstrom angle=%.1fdegree' % (cutoff, angle) | print('Settings: cutoff=%.1fangstrom angle=%.1fdegree' % (cutoff, angle)) | ||
print 'Found %d polar contacts' % (len(x)) | print('Found %d polar contacts' % (len(x))) | ||
if len(name) > 0: | if len(name) > 0: | ||
for p in x: | for p in x: | ||
| Line 58: | Line 61: | ||
</source> | </source> | ||
[[Category:Plugins]] | |||
[[Category:Biochemical_Scripts]] | [[Category:Biochemical_Scripts]] | ||
Latest revision as of 13:53, 12 March 2019
Find polar pairs with the cmd.find_pairs function and return them as a list of atom pairs. It finds (more or less) the same contacts like cmd.distance(mode=2).
Example
pairs = polarpairs('chain A', 'chain B')
for p in pairs:
dist = cmd.get_distance('(%s`%s)' % p[0], '(%s`%s)' % p[1])
print(p, 'Distance: %.2f' % (dist))
The Script
'''
(c) 2011 Thomas Holder, MPI for Developmental Biology
'''
from pymol import cmd
def polarpairs(sel1, sel2, cutoff=4.0, angle=63.0, name='', state=1, quiet=1):
'''
ARGUMENTS
sel1, sel2 = string: atom selections
cutoff = float: distance cutoff
angle = float: h-bond angle cutoff in degrees. If angle="default", take
"h_bond_max_angle" setting. If angle=0, do not detect h-bonding.
name = string: If given, also create a distance object for visual representation
SEE ALSO
cmd.find_pairs, cmd.distance
'''
cutoff = float(cutoff)
quiet = int(quiet)
state = int(state)
if angle == 'default':
angle = cmd.get('h_bond_max_angle', cmd.get_object_list(sel1)[0])
angle = float(angle)
mode = 1 if angle > 0 else 0
x = cmd.find_pairs('(%s) and donors' % sel1, '(%s) and acceptors' % sel2,
state, state,
cutoff=cutoff, mode=mode, angle=angle) + \
cmd.find_pairs('(%s) and acceptors' % sel1, '(%s) and donors' % sel2,
state, state,
cutoff=cutoff, mode=mode, angle=angle)
x = sorted(set(x))
if not quiet:
print('Settings: cutoff=%.1fangstrom angle=%.1fdegree' % (cutoff, angle))
print('Found %d polar contacts' % (len(x)))
if len(name) > 0:
for p in x:
cmd.distance(name, '(%s`%s)' % p[0], '(%s`%s)' % p[1])
return x
cmd.extend('polarpairs', polarpairs)