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Using fgsea package
In fgsea: Fast Gene Set Enrichment Analysis
fgsea is an R-package for fast preranked gene set enrichment analysis (GSEA).
This package allows to quickly and accurately calculate arbitrarily low GSEA P-values for a collection of gene sets.
P-value estimation is based on an adaptive multi-level split Monte-Carlo scheme. See the preprint for algorithmic details.
Loading necessary libraries
library(fgsea)
library(data.table)
library(ggplot2)
library(BiocParallel)
register(SerialParam())
Quick run
Loading example pathways and gene-level statistics and setting random seed:
data(examplePathways)
data(exampleRanks)
set.seed(42)
Running fgsea:
fgseaRes <- fgsea(pathways = examplePathways,
stats = exampleRanks,
minSize = 15,
maxSize = 500)
The resulting table contains enrichment scores and p-values:
head(fgseaRes[order(pval), ])
As you can see from the warning, fgsea has a default lower bound eps=1e-10 for estimating P-values. If you need to estimate P-value more accurately, you can set the eps argument to zero in the fgsea function.
fgseaRes <- fgsea(pathways = examplePathways,
stats = exampleRanks,
eps = 0.0,
minSize = 15,
maxSize = 500)
head(fgseaRes[order(pval), ])
One can make an enrichment plot for a pathway:
plotEnrichment(examplePathways[["5991130_Programmed_Cell_Death"]],
exampleRanks) + labs(title="Programmed Cell Death")
Or make a table plot for a bunch of selected pathways:
topPathwaysUp <- fgseaRes[ES > 0][head(order(pval), n=10), pathway]
topPathwaysDown <- fgseaRes[ES < 0][head(order(pval), n=10), pathway]
topPathways <- c(topPathwaysUp, rev(topPathwaysDown))
plotGseaTable(examplePathways[topPathways], exampleRanks, fgseaRes,
gseaParam=0.5)
From the plot above one can see that there are very similar pathways in the table (for example 5991502_Mitotic_Metaphase_and_Anaphase and 5991600_Mitotic_Anaphase). To select only
independent pathways one can use collapsePathways function:
collapsedPathways <- collapsePathways(fgseaRes[order(pval)][padj < 0.01],
examplePathways, exampleRanks)
mainPathways <- fgseaRes[pathway %in% collapsedPathways$mainPathways][
order(-NES), pathway]
plotGseaTable(examplePathways[mainPathways], exampleRanks, fgseaRes,
gseaParam = 0.5)
To save the results in a text format data:table::fwrite function can be used:
fwrite(fgseaRes, file="fgseaRes.txt", sep="\t", sep2=c("", " ", ""))
To make leading edge more human-readable it can be converted using mapIdsList (similar to AnnotationDbi::mapIds)
function and a corresponding database (here org.Mm.eg.db for mouse):
library(org.Mm.eg.db)
fgseaResMain <- fgseaRes[match(mainPathways, pathway)]
fgseaResMain[, leadingEdge := mapIdsList(
x=org.Mm.eg.db,
keys=leadingEdge,
keytype="ENTREZID",
column="SYMBOL")]
fwrite(fgseaResMain, file="fgseaResMain.txt", sep="\t", sep2=c("", " ", ""))
Performance considerations
Also, fgsea is parallelized using BiocParallel package.
By default the first registered backend returned by bpparam() is
used. To tweak the parallelization one can either specify BPPARAM
parameter used for bplapply of set nproc parameter, which is
a shorthand for setting BPPARAM=MulticoreParam(workers = nproc).
Using Reactome pathways
For convenience there is reactomePathways function that obtains pathways
from Reactome for given set of genes. Package reactome.db is required
to be installed.
pathways <- reactomePathways(names(exampleRanks))
fgseaRes <- fgsea(pathways, exampleRanks, maxSize=500)
head(fgseaRes)
Starting from files
One can also start from .rnk and .gmt files as in original GSEA:
rnk.file <- system.file("extdata", "naive.vs.th1.rnk", package="fgsea")
gmt.file <- system.file("extdata", "mouse.reactome.gmt", package="fgsea")
Loading ranks:
ranks <- read.table(rnk.file,
header=TRUE, colClasses = c("character", "numeric"))
ranks <- setNames(ranks$t, ranks$ID)
str(ranks)
Loading pathways:
pathways <- gmtPathways(gmt.file)
str(head(pathways))
And runnig fgsea:
fgseaRes <- fgsea(pathways, ranks, minSize=15, maxSize=500)
head(fgseaRes)
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fgsea documentation built on Nov. 8, 2020, 5:22 p.m.
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fgsea is an R-package for fast preranked gene set enrichment analysis (GSEA).
This package allows to quickly and accurately calculate arbitrarily low GSEA P-values for a collection of gene sets.
P-value estimation is based on an adaptive multi-level split Monte-Carlo scheme. See the preprint for algorithmic details.
Loading necessary libraries
library(fgsea) library(data.table) library(ggplot2)
library(BiocParallel) register(SerialParam())
Quick run
Loading example pathways and gene-level statistics and setting random seed:
data(examplePathways) data(exampleRanks) set.seed(42)
Running fgsea:
fgseaRes <- fgsea(pathways = examplePathways, stats = exampleRanks, minSize = 15, maxSize = 500)
The resulting table contains enrichment scores and p-values:
head(fgseaRes[order(pval), ])
As you can see from the warning, fgsea has a default lower bound eps=1e-10 for estimating P-values. If you need to estimate P-value more accurately, you can set the eps argument to zero in the fgsea function.
fgseaRes <- fgsea(pathways = examplePathways, stats = exampleRanks, eps = 0.0, minSize = 15, maxSize = 500) head(fgseaRes[order(pval), ])
One can make an enrichment plot for a pathway:
plotEnrichment(examplePathways[["5991130_Programmed_Cell_Death"]], exampleRanks) + labs(title="Programmed Cell Death")
Or make a table plot for a bunch of selected pathways:
topPathwaysUp <- fgseaRes[ES > 0][head(order(pval), n=10), pathway] topPathwaysDown <- fgseaRes[ES < 0][head(order(pval), n=10), pathway] topPathways <- c(topPathwaysUp, rev(topPathwaysDown)) plotGseaTable(examplePathways[topPathways], exampleRanks, fgseaRes, gseaParam=0.5)
From the plot above one can see that there are very similar pathways in the table (for example 5991502_Mitotic_Metaphase_and_Anaphase and 5991600_Mitotic_Anaphase). To select only
independent pathways one can use collapsePathways function:
collapsedPathways <- collapsePathways(fgseaRes[order(pval)][padj < 0.01], examplePathways, exampleRanks) mainPathways <- fgseaRes[pathway %in% collapsedPathways$mainPathways][ order(-NES), pathway] plotGseaTable(examplePathways[mainPathways], exampleRanks, fgseaRes, gseaParam = 0.5)
To save the results in a text format data:table::fwrite function can be used:
fwrite(fgseaRes, file="fgseaRes.txt", sep="\t", sep2=c("", " ", ""))
To make leading edge more human-readable it can be converted using mapIdsList (similar to AnnotationDbi::mapIds)
function and a corresponding database (here org.Mm.eg.db for mouse):
library(org.Mm.eg.db) fgseaResMain <- fgseaRes[match(mainPathways, pathway)] fgseaResMain[, leadingEdge := mapIdsList( x=org.Mm.eg.db, keys=leadingEdge, keytype="ENTREZID", column="SYMBOL")] fwrite(fgseaResMain, file="fgseaResMain.txt", sep="\t", sep2=c("", " ", ""))
Performance considerations
Also, fgsea is parallelized using BiocParallel package.
By default the first registered backend returned by bpparam() is
used. To tweak the parallelization one can either specify BPPARAM
parameter used for bplapply of set nproc parameter, which is
a shorthand for setting BPPARAM=MulticoreParam(workers = nproc).
Using Reactome pathways
For convenience there is reactomePathways function that obtains pathways
from Reactome for given set of genes. Package reactome.db is required
to be installed.
pathways <- reactomePathways(names(exampleRanks)) fgseaRes <- fgsea(pathways, exampleRanks, maxSize=500) head(fgseaRes)
Starting from files
One can also start from .rnk and .gmt files as in original GSEA:
rnk.file <- system.file("extdata", "naive.vs.th1.rnk", package="fgsea") gmt.file <- system.file("extdata", "mouse.reactome.gmt", package="fgsea")
Loading ranks:
ranks <- read.table(rnk.file, header=TRUE, colClasses = c("character", "numeric")) ranks <- setNames(ranks$t, ranks$ID) str(ranks)
Loading pathways:
pathways <- gmtPathways(gmt.file) str(head(pathways))
And runnig fgsea:
fgseaRes <- fgsea(pathways, ranks, minSize=15, maxSize=500) head(fgseaRes)
Try the fgsea package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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