draw.rearranged.oriloc: Graphical representation for rearranged nucleotide skews in...
In seqinr: Biological Sequences Retrieval and Analysis
View source: R/draw.rearranged.oriloc.R
draw.rearranged.oriloc R Documentation
Graphical representation for rearranged nucleotide skews in
prokaryotic chromosomes.
Description
Graphical representation for rearranged nucleotide skews in
prokaryotic chromosomes.
Usage
draw.rearranged.oriloc(rearr.ori, breaks.gcfw = NA,
breaks.gcrev = NA, breaks.atfw = NA, breaks.atrev = NA)
Arguments
rearr.ori
A data frame obtained with the rearranged.oriloc
function.
breaks.gcfw
The coordinates of the breakpoints in the GC-skew,
for forward transcribed protein coding sequences. These coordinates
can be obtained with the extract.breakpoints function.
breaks.gcrev
The coordinates of the breakpoints in the GC-skew,
for reverse transcribed protein coding sequences. These coordinates
can be obtained with the extract.breakpoints function.
breaks.atfw
The coordinates of the breakpoints in the AT-skew,
for forward transcribed protein coding sequences. These coordinates
can be obtained with the extract.breakpoints function.
breaks.atrev
The coordinates of the breakpoints in the AT-skew,
for reverse transcribed protein coding sequences. These coordinates
can be obtained with the extract.breakpoints function.
Author(s)
J.R. Lobry, A. Necşulea
References
Necşulea, A. and Lobry, J.R. (2007) A New Method for Assessing the
Effect of Replication on DNA Base Composition Asymmetry.
Molecular Biology and Evolution, 24:2169-2179.
See Also
rearranged.oriloc,
extract.breakpoints
Examples
## Not run:
### Example for Chlamydia trachomatis ####
### Rearrange the chromosome and compute the nucleotide skews ###
#r.ori <- rearranged.oriloc(seq.fasta = system.file("sequences/ct.fasta.gz", package = "seqinr"),
# g2.coord = system.file("sequences/ct.coord", package = "seqinr"))
r.ori <- rearranged.oriloc(seq.fasta = system.file("sequences/ct.fasta.gz", package = "seqinr"),
g2.coord = system.file("sequences/ct.coord", package = "seqinr"))
### Extract the breakpoints for the rearranged nucleotide skews ###
breaks <- extract.breakpoints(r.ori, type = c("gcfw", "gcrev"),
nbreaks = c(2, 2), gridsize = 50, it.max = 100)
### Draw the rearranged nucleotide skews and ###
### place the position of the breakpoints on the graphics ###
draw.rearranged.oriloc(r.ori, breaks.gcfw = breaks$gcfw$breaks,
breaks.gcrev = breaks$gcrev$breaks)
## End(Not run)
seqinr documentation built on May 29, 2024, 6:36 a.m.
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View source: R/draw.rearranged.oriloc.R
| draw.rearranged.oriloc | R Documentation |
Graphical representation for rearranged nucleotide skews in prokaryotic chromosomes.
Description
Graphical representation for rearranged nucleotide skews in prokaryotic chromosomes.
Usage
draw.rearranged.oriloc(rearr.ori, breaks.gcfw = NA,
breaks.gcrev = NA, breaks.atfw = NA, breaks.atrev = NA)Arguments
rearr.ori |
A data frame obtained with the |
breaks.gcfw |
The coordinates of the breakpoints in the GC-skew,
for forward transcribed protein coding sequences. These coordinates
can be obtained with the |
breaks.gcrev |
The coordinates of the breakpoints in the GC-skew,
for reverse transcribed protein coding sequences. These coordinates
can be obtained with the |
breaks.atfw |
The coordinates of the breakpoints in the AT-skew,
for forward transcribed protein coding sequences. These coordinates
can be obtained with the |
breaks.atrev |
The coordinates of the breakpoints in the AT-skew,
for reverse transcribed protein coding sequences. These coordinates
can be obtained with the |
Author(s)
J.R. Lobry, A. Necşulea
References
Necşulea, A. and Lobry, J.R. (2007) A New Method for Assessing the Effect of Replication on DNA Base Composition Asymmetry. Molecular Biology and Evolution, 24:2169-2179.
See Also
rearranged.oriloc,
extract.breakpoints
Examples
## Not run:
### Example for Chlamydia trachomatis ####
### Rearrange the chromosome and compute the nucleotide skews ###
#r.ori <- rearranged.oriloc(seq.fasta = system.file("sequences/ct.fasta.gz", package = "seqinr"),
# g2.coord = system.file("sequences/ct.coord", package = "seqinr"))
r.ori <- rearranged.oriloc(seq.fasta = system.file("sequences/ct.fasta.gz", package = "seqinr"),
g2.coord = system.file("sequences/ct.coord", package = "seqinr"))
### Extract the breakpoints for the rearranged nucleotide skews ###
breaks <- extract.breakpoints(r.ori, type = c("gcfw", "gcrev"),
nbreaks = c(2, 2), gridsize = 50, it.max = 100)
### Draw the rearranged nucleotide skews and ###
### place the position of the breakpoints on the graphics ###
draw.rearranged.oriloc(r.ori, breaks.gcfw = breaks$gcfw$breaks,
breaks.gcrev = breaks$gcrev$breaks)
## End(Not run)
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