Convert atom names/types into atomic masses.
atom2mass(…)
# S3 method for default
atom2mass(x, mass.custom=NULL, elety.custom=NULL,
grpby=NULL, rescue=TRUE, …)
# S3 method for pdb
atom2mass(pdb, inds=NULL, mass.custom=NULL,
elety.custom=NULL, grpby=NULL, rescue=TRUE, …)a character vector containing atom names/types to be converted.
a customized data.frame containing atomic symbols and corresponding masses.
a customized data.frame containing atom names/types and corresponding atomic symbols.
a ‘factor’, as returned by as.factor, used
to group the atoms.
logical, if TRUE the atomic symbols will be mapped to the first character of the atom names/types.
an object of class ‘pdb’ for which elety will
be converted.
an object of class ‘select’ indicating a subset of
the pdb object to be used (see atom.select and
trim.pdb).
.
Return a numeric vector of masses.
The default method first convert atom names/types into atomic symbols
using the atom2ele function. Then, atomic symbols are
searched in the elements data set and their corresponding masses
are returned. If mass.custom is specified it is combined with
elements (using rbind) before searching. Therefore,
mass.custom must have columns named symb and mass
(see examples). If grpby is specified masses are splitted (using
split) to compute the mass of groups of atoms defined by
grpby.
The S3 method for object of class ‘pdb’, pass
pdb$atom$elety to the default method.
# NOT RUN {
atom.names <- c("CA", "O", "N", "OXT")
atom2mass(atom.names)
# }
# NOT RUN {
# PDB server connection required - testing excluded
## Get atomic symbols from a PDB object with a customized data set
pdb <- read.pdb("3RE0", verbose=FALSE)
inds <- atom.select(pdb, resno=201, verbose=FALSE)
## selected atoms
print(pdb$atom$elety[inds$atom])
## default will map CL2 to C
atom2mass(pdb, inds)
## map element CL2 correctly to Cl
myelety <- data.frame(name = c("CL2","PT1","N1","N2"), symb = c("Cl","Pt","N","N"))
atom2mass(pdb, inds, elety.custom = myelety)
## custom masses
mymasses <- data.frame(symb = c("Cl","Pt"), mass = c(35.45, 195.08))
atom2mass(pdb, inds, elety.custom = myelety, mass.custom = mymasses)
# }
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