get_region_target_gene: Obtain target genes of input regions based on distance
In MethReg: Assessing the regulatory potential of DNA methylation regions or sites on gene transcription
Description
Usage
Arguments
Details
Value
Examples
View source: R/get_region_target_gene.R
Description
To map an input region to genes there are three options:
1) map region to closest gene tss
2) map region to all genes within a window around the region
(default window.size = 500kbp
(i.e. +/- 250kbp from start or end of the region)).
3) map region to a fixed number of nearby genes (upstream/downstream)
Usage
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get_region_target_gene(
regions.gr,
genome = c("hg38", "hg19"),
method = c("genes.promoter.overlap", "window", "nearby.genes", "closest.gene.tss"),
promoter.upstream.dist.tss = 2000,
promoter.downstream.dist.tss = 2000,
window.size = 500 * 10^3,
num.flanking.genes = 5,
rm.promoter.regions.from.distal.linking = TRUE
)
Arguments
regions.gr
A Genomic Ranges object (GRanges) or a
SummarizedExperiment object (rowRanges will be used)
genome
Human genome of reference "hg38" or "hg19"
method
How genes are mapped to regions: region overlapping gene
promoter ("genes.promoter.overlap"); or
genes within a window around the region ("window");
or a fixed number genes upstream
and downstream of the region ("nearby.genes");
or closest gene tss to the region ("closest.gene.tss")
promoter.upstream.dist.tss
Number of base pairs (bp) upstream of
TSS to consider as promoter regions. Defaults to 2000 bp.
promoter.downstream.dist.tss
Number of base pairs (bp) downstream of
TSS to consider as promoter regions. Defaults to 2000 bp.
window.size
When method = "window", number of base pairs
to extend the region (+- window.size/2).
Default is 500kbp (or +/- 250kbp, i.e. 250k bp from start or end of the region)
num.flanking.genes
When method = "nearby.genes", set the number
of flanking genes upstream and downstream to search.Defaults to 5.
For example, if num.flanking.genes = 5, it will return the 5 genes upstream
and 5 genes downstream of the given region.
rm.promoter.regions.from.distal.linking
When performing distal linking
with method = "windows", "nearby.genes" or "closest.gene.tss", if set to TRUE (default),
probes in promoter regions will be removed from the input.
Details
For the analysis of probes in promoter regions (promoter analysis),
we recommend setting
method = "genes.promoter.overlap".
For the analysis of probes in distal regions (distal analysis),
we recommend setting either method = "window"
or method = "nearby.genes".
Note that because method = "window" or
method = "nearby.genes" are
mainly used for analyzing distal probes,
by default rm.promoter.regions.from.distal.linking = TRUE to
remove probes in promoter regions.
Value
A data frame with the following information:
regionID, Target symbol, Target ensembl ID
Examples
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library(GenomicRanges)
library(dplyr)
# Create example region
regions.gr <- data.frame(
chrom = c("chr22", "chr22", "chr22", "chr22", "chr22"),
start = c("39377790", "50987294", "19746156", "42470063", "43817258"),
end = c("39377930", "50987527", "19746368", "42470223", "43817384"),
stringsAsFactors = FALSE) %>%
makeGRangesFromDataFrame
# map to closest gene tss
region.genes.promoter.overlaps <- get_region_target_gene(
regions.gr = regions.gr,
genome = "hg19",
method = "genes.promoter.overlap"
)
# map to all gene within region +- 250kbp
region.window.genes <- get_region_target_gene(
regions.gr = regions.gr,
genome = "hg19",
method = "window",
window.size = 500 * 10^3
)
# map regions to n upstream and n downstream genes
region.nearby.genes <- get_region_target_gene(
regions.gr = regions.gr,
genome = "hg19",
method = "nearby.genes",
num.flanking.genes = 5
)
MethReg documentation built on Nov. 8, 2020, 8:01 p.m.
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Description Usage Arguments Details Value Examples
View source: R/get_region_target_gene.R
Description
To map an input region to genes there are three options: 1) map region to closest gene tss 2) map region to all genes within a window around the region (default window.size = 500kbp (i.e. +/- 250kbp from start or end of the region)). 3) map region to a fixed number of nearby genes (upstream/downstream)
Usage
1 2 3 4 5 6 7 8 9 10 | get_region_target_gene(
regions.gr,
genome = c("hg38", "hg19"),
method = c("genes.promoter.overlap", "window", "nearby.genes", "closest.gene.tss"),
promoter.upstream.dist.tss = 2000,
promoter.downstream.dist.tss = 2000,
window.size = 500 * 10^3,
num.flanking.genes = 5,
rm.promoter.regions.from.distal.linking = TRUE
)
|
Arguments
regions.gr |
A Genomic Ranges object (GRanges) or a SummarizedExperiment object (rowRanges will be used) |
genome |
Human genome of reference "hg38" or "hg19" |
method |
How genes are mapped to regions: region overlapping gene promoter ("genes.promoter.overlap"); or genes within a window around the region ("window"); or a fixed number genes upstream and downstream of the region ("nearby.genes"); or closest gene tss to the region ("closest.gene.tss") |
promoter.upstream.dist.tss |
Number of base pairs (bp) upstream of TSS to consider as promoter regions. Defaults to 2000 bp. |
promoter.downstream.dist.tss |
Number of base pairs (bp) downstream of TSS to consider as promoter regions. Defaults to 2000 bp. |
window.size |
When |
num.flanking.genes |
When |
rm.promoter.regions.from.distal.linking |
When performing distal linking with method = "windows", "nearby.genes" or "closest.gene.tss", if set to TRUE (default), probes in promoter regions will be removed from the input. |
Details
For the analysis of probes in promoter regions (promoter analysis),
we recommend setting
method = "genes.promoter.overlap".
For the analysis of probes in distal regions (distal analysis),
we recommend setting either method = "window"
or method = "nearby.genes".
Note that because method = "window" or
method = "nearby.genes" are
mainly used for analyzing distal probes,
by default rm.promoter.regions.from.distal.linking = TRUE to
remove probes in promoter regions.
Value
A data frame with the following information: regionID, Target symbol, Target ensembl ID
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 | library(GenomicRanges)
library(dplyr)
# Create example region
regions.gr <- data.frame(
chrom = c("chr22", "chr22", "chr22", "chr22", "chr22"),
start = c("39377790", "50987294", "19746156", "42470063", "43817258"),
end = c("39377930", "50987527", "19746368", "42470223", "43817384"),
stringsAsFactors = FALSE) %>%
makeGRangesFromDataFrame
# map to closest gene tss
region.genes.promoter.overlaps <- get_region_target_gene(
regions.gr = regions.gr,
genome = "hg19",
method = "genes.promoter.overlap"
)
# map to all gene within region +- 250kbp
region.window.genes <- get_region_target_gene(
regions.gr = regions.gr,
genome = "hg19",
method = "window",
window.size = 500 * 10^3
)
# map regions to n upstream and n downstream genes
region.nearby.genes <- get_region_target_gene(
regions.gr = regions.gr,
genome = "hg19",
method = "nearby.genes",
num.flanking.genes = 5
)
|
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