|
|
findRotamerNearest
|
findRotamerNearest (
atPos,
idatmType,
atom,
neighbor,
checkDist,
)
|
|
|
bondWithHLength
|
bondWithHLength ( heavy, idatmType )
|
|
|
hbondAddHydrogens
|
hbondAddHydrogens (
models,
unknownsInfo={},
hisScheme=None,
)
Add hydrogens to given models, trying to preserve H-bonding
Arguments are similar to simpleAddHydrogens() except that for
histidines not in the hisScheme dictionary, the hydrogen-bond
interactions determine the histidine protonation.
|
|
|
determineNamingSchemas
|
determineNamingSchemas ( molecule, typeInfo )
Determine for each residue, method for naming hydrogens
The two possible schemas are:
replace -- put H in place of element name
prepend -- put H in front of entire atom name
In both cases, a number will be appended if more than one hydrogen
is to be added.
Replace is the preferred scheme and is used when the heavy atoms
have been given reasonably distinctive names. Prepend is used
mostly in small molecules where the atoms have names such as C1,
C2, C3, N1, N2, etc. and replace would not work.
|
|
|
gatherUnknowns
|
gatherUnknowns ( models, prevUnknowns=[] )
Find atoms whose hydrogen-adding geometries are unknown
|
|
|
cmdAddH
|
cmdAddH (
molecules=None,
hbond=True,
useHisName=True,
)
|
|
|
simpleAddHydrogens
|
simpleAddHydrogens (
models,
unknownsInfo={},
hisScheme=None,
)
Add hydrogens to given models using simple geometric criteria
Geometric info for atoms whose IDATM types don't themselves provide
sufficient information can be passed via the unknownsInfo dictionary.
The keys are atoms and the values are dictionaries specifying the
geometry and number of substituents (not only hydrogens) for the atom.
The hisScheme keyword determines how histidines are handled. If
it is None then the residue name is expected to be HIE, HID, HIP, or
HIS indicating the protonation state is epsilon, delta, both, or
unspecified respectively. Otherwise the value is a dictionary: the
keys are histidine residues and the values are HIE/HID/HIP/HIS
indication of the protonation state. Histindines not in the
dictionary will be protonated based on the nitrogens' atom types.
the protonation is determined by the nitrogen atom type.
This routine adds hydrogens immediately even if some atoms have
unknown geometries. To allow the user to intervene to specify
geometries, use the initiateAddHyd function of the unknownsGUI
module of this package.
|
|
|
roomiest
|
roomiest (
positions,
attached,
checkDist,
)
|
|
|
newHydrogen
|
newHydrogen (
parentAtom,
Hnum,
totalHydrogens,
namingSchema,
pos,
)
|
|
|
findNearest
|
findNearest (
pos,
atom,
exclude,
checkDist,
)
|
|