plotRegionCoverage: Makes plots for every region while summarizing the annotation
In derfinderPlot: Plotting functions for derfinder
Description
Usage
Arguments
Value
Author(s)
See Also
Examples
View source: R/plotRegionCoverage.R
Description
This function takes the regions found in calculatePvalues
and assigns them genomic states contructed with
makeGenomicState. The main workhorse functions are
countOverlaps and findOverlaps. For an
alternative plot check plotCluster which is much slower and we
recommend it's use only after quickly checking the results with this
function.
Usage
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plotRegionCoverage(
regions,
regionCoverage,
groupInfo,
nearestAnnotation,
annotatedRegions,
txdb = NULL,
whichRegions = seq_len(min(100, length(regions))),
colors = NULL,
scalefac = 32,
ask = interactive(),
ylab = "Coverage",
verbose = TRUE
)
Arguments
regions
The $regions output from
calculatePvalues.
regionCoverage
The output from getRegionCoverage
used on regions.
groupInfo
A factor specifying the group membership of each sample. It
will be used to color the samples by group.
nearestAnnotation
The output from matchGenes
used on regions.
annotatedRegions
The output from annotateRegions
used on regions.
txdb
A TxDb object. If specified, transcript
annotation will be extracted from this object and used to plot the
transcripts.
whichRegions
An integer vector with the index of the regions to plot.
colors
If NULL then brewer.pal with the
'Dark2' color scheme is used.
scalefac
The parameter used in preprocessCoverage.
ask
If TRUE then the user is prompted before each plot is made.
ylab
The name of the of the Y axis.
verbose
If TRUE basic status updates will be printed along the
way.
Value
A plot for every region showing the coverage of each sample at each
base of the region as well as the summarized annotation information.
Author(s)
Andrew Jaffe, Leonardo Collado-Torres
See Also
calculatePvalues,
getRegionCoverage,
matchGenes, annotateRegions,
plotCluster
Examples
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## Load data
library("derfinder")
## Annotate regions, first two regions only
regions <- genomeRegions$regions[1:2]
annotatedRegions <- annotateRegions(
regions = regions,
genomicState = genomicState$fullGenome, minoverlap = 1
)
## Find nearest annotation with bumphunter::matchGenes()
library("bumphunter")
library("TxDb.Hsapiens.UCSC.hg19.knownGene")
genes <- annotateTranscripts(txdb = TxDb.Hsapiens.UCSC.hg19.knownGene)
nearestAnnotation <- matchGenes(x = regions, subject = genes)
## Obtain fullCov object
fullCov <- list("21" = genomeDataRaw$coverage)
## Assign chr lengths using hg19 information
library("GenomicRanges")
seqlengths(regions) <- seqlengths(getChromInfoFromUCSC("hg19",
as.Seqinfo = TRUE
))[
mapSeqlevels(names(seqlengths(regions)), "UCSC")
]
## Get the region coverage
regionCov <- getRegionCoverage(fullCov = fullCov, regions = regions)
#
## Make plots for the regions
plotRegionCoverage(
regions = regions, regionCoverage = regionCov,
groupInfo = genomeInfo$pop, nearestAnnotation = nearestAnnotation,
annotatedRegions = annotatedRegions, whichRegions = 1:2
)
## Re-make plots with transcript information
plotRegionCoverage(
regions = regions, regionCoverage = regionCov,
groupInfo = genomeInfo$pop, nearestAnnotation = nearestAnnotation,
annotatedRegions = annotatedRegions, whichRegions = 1:2,
txdb = TxDb.Hsapiens.UCSC.hg19.knownGene
)
## Not run:
## If you prefer, you can save the plots to a pdf file
pdf("ders.pdf", h = 6, w = 9)
plotRegionCoverage(
regions = regions, regionCoverage = regionCov,
groupInfo = genomeInfo$pop, nearestAnnotation = nearestAnnotation,
annotatedRegions = annotatedRegions, whichRegions = 1:2,
txdb = TxDb.Hsapiens.UCSC.hg19.knownGene, ask = FALSE
)
dev.off()
## End(Not run)
derfinderPlot documentation built on Dec. 20, 2020, 2:01 a.m.
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Description Usage Arguments Value Author(s) See Also Examples
View source: R/plotRegionCoverage.R
Description
This function takes the regions found in calculatePvalues and assigns them genomic states contructed with makeGenomicState. The main workhorse functions are countOverlaps and findOverlaps. For an alternative plot check plotCluster which is much slower and we recommend it's use only after quickly checking the results with this function.
Usage
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | plotRegionCoverage(
regions,
regionCoverage,
groupInfo,
nearestAnnotation,
annotatedRegions,
txdb = NULL,
whichRegions = seq_len(min(100, length(regions))),
colors = NULL,
scalefac = 32,
ask = interactive(),
ylab = "Coverage",
verbose = TRUE
)
|
Arguments
regions |
The |
regionCoverage |
The output from getRegionCoverage
used on |
groupInfo |
A factor specifying the group membership of each sample. It will be used to color the samples by group. |
nearestAnnotation |
The output from matchGenes
used on |
annotatedRegions |
The output from annotateRegions
used on |
txdb |
A TxDb object. If specified, transcript annotation will be extracted from this object and used to plot the transcripts. |
whichRegions |
An integer vector with the index of the regions to plot. |
colors |
If |
scalefac |
The parameter used in preprocessCoverage. |
ask |
If |
ylab |
The name of the of the Y axis. |
verbose |
If |
Value
A plot for every region showing the coverage of each sample at each base of the region as well as the summarized annotation information.
Author(s)
Andrew Jaffe, Leonardo Collado-Torres
See Also
calculatePvalues, getRegionCoverage, matchGenes, annotateRegions, plotCluster
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 | ## Load data
library("derfinder")
## Annotate regions, first two regions only
regions <- genomeRegions$regions[1:2]
annotatedRegions <- annotateRegions(
regions = regions,
genomicState = genomicState$fullGenome, minoverlap = 1
)
## Find nearest annotation with bumphunter::matchGenes()
library("bumphunter")
library("TxDb.Hsapiens.UCSC.hg19.knownGene")
genes <- annotateTranscripts(txdb = TxDb.Hsapiens.UCSC.hg19.knownGene)
nearestAnnotation <- matchGenes(x = regions, subject = genes)
## Obtain fullCov object
fullCov <- list("21" = genomeDataRaw$coverage)
## Assign chr lengths using hg19 information
library("GenomicRanges")
seqlengths(regions) <- seqlengths(getChromInfoFromUCSC("hg19",
as.Seqinfo = TRUE
))[
mapSeqlevels(names(seqlengths(regions)), "UCSC")
]
## Get the region coverage
regionCov <- getRegionCoverage(fullCov = fullCov, regions = regions)
#
## Make plots for the regions
plotRegionCoverage(
regions = regions, regionCoverage = regionCov,
groupInfo = genomeInfo$pop, nearestAnnotation = nearestAnnotation,
annotatedRegions = annotatedRegions, whichRegions = 1:2
)
## Re-make plots with transcript information
plotRegionCoverage(
regions = regions, regionCoverage = regionCov,
groupInfo = genomeInfo$pop, nearestAnnotation = nearestAnnotation,
annotatedRegions = annotatedRegions, whichRegions = 1:2,
txdb = TxDb.Hsapiens.UCSC.hg19.knownGene
)
## Not run:
## If you prefer, you can save the plots to a pdf file
pdf("ders.pdf", h = 6, w = 9)
plotRegionCoverage(
regions = regions, regionCoverage = regionCov,
groupInfo = genomeInfo$pop, nearestAnnotation = nearestAnnotation,
annotatedRegions = annotatedRegions, whichRegions = 1:2,
txdb = TxDb.Hsapiens.UCSC.hg19.knownGene, ask = FALSE
)
dev.off()
## End(Not run)
|
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