read.pqr | R Documentation |
Read a PQR coordinate file.
read.pqr(file, maxlines = -1, multi = FALSE, rm.insert = FALSE,
rm.alt = TRUE, verbose = TRUE)
file |
the name of the PQR file to be read. |
maxlines |
the maximum number of lines to read before giving up with large files. By default if will read up to the end of input on the connection. |
multi |
logical, if TRUE multiple ATOM records are read for all models in multi-model files. |
rm.insert |
logical, if TRUE PDB insert records are ignored. |
rm.alt |
logical, if TRUE PDB alternate records are ignored. |
verbose |
print details of the reading process. |
PQR file format is basically the same as PDB format except for the fields of
o
and b
. In PDB, these two fields are filled with ‘Occupancy’
and ‘B-factor’ values, respectively, with each field 6-column long.
In PQR, they are atomic ‘partial charge’ and ‘radii’
values, respectively, with each field 8-column long.
maxlines
may require increasing for some large multi-model files.
The preferred means of reading such data is via binary DCD format
trajectory files (see the read.dcd
function).
Returns a list of class "pdb"
with the following components:
atom |
a data.frame containing all atomic coordinate ATOM and HETATM data, with a row per ATOM/HETATM and a column per record type. See below for details of the record type naming convention (useful for accessing columns). |
helix |
‘start’, ‘end’ and ‘length’ of H type sse, where start and end are residue numbers “resno”. |
sheet |
‘start’, ‘end’ and ‘length’ of E type sse, where start and end are residue numbers “resno”. |
seqres |
sequence from SEQRES field. |
xyz |
a numeric matrix of class |
calpha |
logical vector with length equal to |
call |
the matched call. |
For both atom
and het
list components the column names can be
used as a convenient means of data access, namely:
Atom serial number “eleno” ,
Atom type “elety”,
Alternate location indicator “alt”,
Residue name “resid”,
Chain identifier “chain”,
Residue sequence number “resno”,
Code for insertion of residues “insert”,
Orthogonal coordinates “x”,
Orthogonal coordinates “y”,
Orthogonal coordinates “z”,
Occupancy “o”, and
Temperature factor “b”.
See examples for further details.
Barry Grant
Grant, B.J. et al. (2006) Bioinformatics 22, 2695–2696.
For a description of PDB format (version3.3) see:
http://www.wwpdb.org/documentation/format33/v3.3.html.
atom.select
, write.pqr
,
read.pdb
, write.pdb
,
read.dcd
, read.fasta.pdb
,
read.fasta
# PDB server connection required - testing excluded
try({
# Read a PDB file and write it as a PQR file
pdb <- read.pdb( "4q21" )
outfile = file.path(tempdir(), "eg.pqr")
write.pqr(pdb=pdb, file = outfile)
# Read the PQR file
pqr <- read.pqr(outfile)
## Print a brief composition summary
pqr
## Examine the storage format (or internal *str*ucture)
str(pqr)
## Print data for the first four atom
pqr$atom[1:4,]
## Print some coordinate data
head(pqr$atom[, c("x","y","z")])
## Print C-alpha coordinates (can also use 'atom.select' function)
head(pqr$atom[pqr$calpha, c("resid","elety","x","y","z")])
inds <- atom.select(pqr, elety="CA")
head( pqr$atom[inds$atom, ] )
## The atom.select() function returns 'indices' (row numbers)
## that can be used for accessing subsets of PDB objects, e.g.
inds <- atom.select(pqr,"ligand")
pqr$atom[inds$atom,]
pqr$xyz[inds$xyz]
## See the help page for atom.select() function for more details.
}, silent=TRUE)
if(inherits(.Last.value, "try-error")) {
message("Need internet to run the example")
}
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