R/doKEGGEnrichment.R
In linquynus/RCAv2-beta: Reference Component Analysis
Defines functions
doEnrichKEGG
Documented in
doEnrichKEGG
#' Perform KEGG enrichment analysis using cluster profiler.
#'
#' @param rca.obj An RCA2 object
#' @param annotation An ontology dataset that can be obtained from bioconductor. Used for ID matching.
#' @param org Supported organism in KEGG. An overview is listed in 'http://www.genome.jp/kegg/catalog/org_list.html'. Default: hsa (human)
#' @param key one of "kegg", 'ncbi-geneid', 'ncib-proteinid' and 'uniprot', Default: KEGG.
#' @param p.Val p-value cut-off, default 0.05
#' @param q.Val q-value cut-off, default 0.2
#' @param p.Adjust.Method p-value adjustment method to be used, default BH
#' @param gene.label.type Type of gene.labels used, default SYMBOL
#' @param filename postfix of the plots generated, GoEnrichment.pdf
#' @param background.set, ALL indicates that all genes are considered, CLUSTER indicates that only genes with the cluster of interest are considered (default: ALL)
#' @param background.set.threshold, minimum expression threshold used for mean gene-expression. Either a numerical value or one of the following thresholds computed on the mean gene-expression values across all genes within a considered cluster: Min, 1stQ, Mean, Median, 3rdQ. Default: NULL
#' @param n.Cells.Expressed Alternative threshold to filter genes. Keep only genes that are expressed in at least n.Cells.Expressed cells
#' @param cluster.ID ID of a cluster for which the GO enrichment should be computed. If this is not provided, enrichment will be computed for all clusters. Default: NULL
#' @param deep.split Deep.split to be used if hierachical clustering was used to cluster the projection
#' @return RCA object.
#' @export
#'
doEnrichKEGG<-function(rca.obj,
annotation=NULL,
org="hsa",
key="kegg",
p.Val=0.05,
q.Val=0.2,
p.Adjust.Method="BH",
gene.label.type="SYMBOL",
filename="KEGG_Enrichment.pdf",
background.set="ALL",
background.set.threshold=NULL,
n.Cells.Expressed=NULL,
cluster.ID=NULL,
deep.split=NULL){
#check annotation provided
if (is.null(annotation)){
print("No annotation provided. Download from bioconductor, e.g. org.Hs.eg.db for homo sapiens")
stop()
}
#check background.se.thresholds
if (!(is.null(background.set.threshold)) & !(is.null(n.Cells.Expressed))){
print("Only one threshold can be used.")
stop()
}
#Check type of clustering
if (class(rca.obj$clustering.out)!="hclust"){
deep.split=1
}else{
if (is.null(deep.split)){
print("Please specify the desired cluster split to be used")
stop()
}
}
#map cluster colors to numbers#
clusters<-unique(rca.obj$clustering.out$dynamicColorsList[[deep.split]])
map<-c(1:length(clusters))
names(map)<-clusters
#Determine clusters to be subjected to go test
if(is.null(cluster.ID)){
allClusters<-map
}else{
allClusters<-map[cluster.ID]
}
###Loop through all clusters
for (cluster in allClusters){
if (is.null(cluster.ID)){
print(paste0("Performing KEGG enrichment for cluster ",names(allClusters)[cluster]))
} else {
print(paste0("Performing KEGG enrihment for cluster ",names(allClusters)[1]))
}
clusterGenes<-as.character(rca.obj$DE.genes$Top.DE.genes$Gene[which(rca.obj$DE.genes$Top.DE.genes$Cluster==cluster)])
clusterGenes<-str_to_upper(clusterGenes)
###Generate background set using a threshold based on the mean expression of genes across all cells.
backgroundGeneNames<-row.names(rca.obj$data)
if (!(is.null(background.set.threshold))){
if (background.set=="CLUSTER"){
if(is.null(cluster.ID)){
clusterMeanExp<-apply(rca.obj$data[,which(rca.obj$clustering.out$dynamicColorsList[[1]]==names(allClusters)[cluster])],1,mean)
}else{
clusterMeanExp<-apply(rca.obj$data[,which(rca.obj$clustering.out$dynamicColorsList[[1]]==names(allClusters)[1])],1,mean)
}
}else{
clusterMeanExp<-apply(rca.obj$data,1,mean)
}
if (is.numeric(background.set.threshold)){
backgroundGeneNames<-row.names(rca.obj$data)[which(clusterMeanExp>background.set.threshold)]
}else{
labels<-c("Min","1stQ","Median","Mean","3rdQ")
index<-which(labels == background.set.threshold)
if (isEmpty(index)){
print("The provided value for the background.set.threshold is not valid")
stop()
}
backgroundGeneNames<-row.names(rca.obj$data)[which(clusterMeanExp>summary(clusterMeanExp)[index])]
}
}
###Generate background set using a threshold based on the mean expression of genes across all cells.
if (!(is.null(n.Cells.Expressed))){
geneExpVec <- Matrix::rowSums(rca.obj$raw.data>0)
backgroundGeneNames<-row.names(rca.obj$data)[which(geneExpVec > min.cell.exp)]
}
###Relabel genes in case they are not in ENTREZ gene ID format already
if (gene.label.type != "ENTREZID"){
backgroundENTREZ<-clusterProfiler::bitr(backgroundGeneNames, fromType = gene.label.type, toType = c("ENTREZID"), OrgDb = annotation)
gene.df <- clusterProfiler::bitr(clusterGenes, fromType = gene.label.type, toType = c("ENTREZID"), OrgDb = annotation)
} else {
backgroundENTREZ <- data.frame(ENTREZID=backgroundGeneNames)
gene.df <- data.frame(ENTREZID=clusterGenes)
}
###Perfom actual enrichemt test
ggo <- clusterProfiler::enrichKEGG(gene = gene.df$ENTREZID,
organism = org,
keyType = key,
pAdjustMethod = p.Adjust.Method,
pvalueCutoff = p.Val,
qvalueCutoff = q.Val,
universe = backgroundENTREZ$ENTREZID)
if (!is.null(ggo)){
if (dim(as.data.frame(ggo))[1] != 0){
if (is.null(cluster.ID)){
#Generate and save barplot
ggplot2::ggsave(paste0("barplot_",names(allClusters)[cluster],"_",filename),barplot(ggo),width=15,height=8,units="in")
#Generate and save dotplot
ggplot2::ggsave(paste0("Dotplot_",names(allClusters)[cluster],"_",filename),clusterProfiler::dotplot(ggo),width=15,height=8,units="in")
} else {
#Generate and save barplot
ggplot2::ggsave(paste0("barplot_",names(allClusters)[1],"_",filename),barplot(ggo),width=15,height=8,units="in")
#Generate and save dotplot
ggplot2::ggsave(paste0("Dotplot_",names(allClusters)[1],"_",filename),clusterProfiler::dotplot(ggo),width=15,height=8,units="in")
}
}
}
}
}
linquynus/RCAv2-beta documentation built on Aug. 9, 2020, 12:34 a.m.
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Defines functions doEnrichKEGG
Documented in doEnrichKEGG
#' Perform KEGG enrichment analysis using cluster profiler.
#'
#' @param rca.obj An RCA2 object
#' @param annotation An ontology dataset that can be obtained from bioconductor. Used for ID matching.
#' @param org Supported organism in KEGG. An overview is listed in 'http://www.genome.jp/kegg/catalog/org_list.html'. Default: hsa (human)
#' @param key one of "kegg", 'ncbi-geneid', 'ncib-proteinid' and 'uniprot', Default: KEGG.
#' @param p.Val p-value cut-off, default 0.05
#' @param q.Val q-value cut-off, default 0.2
#' @param p.Adjust.Method p-value adjustment method to be used, default BH
#' @param gene.label.type Type of gene.labels used, default SYMBOL
#' @param filename postfix of the plots generated, GoEnrichment.pdf
#' @param background.set, ALL indicates that all genes are considered, CLUSTER indicates that only genes with the cluster of interest are considered (default: ALL)
#' @param background.set.threshold, minimum expression threshold used for mean gene-expression. Either a numerical value or one of the following thresholds computed on the mean gene-expression values across all genes within a considered cluster: Min, 1stQ, Mean, Median, 3rdQ. Default: NULL
#' @param n.Cells.Expressed Alternative threshold to filter genes. Keep only genes that are expressed in at least n.Cells.Expressed cells
#' @param cluster.ID ID of a cluster for which the GO enrichment should be computed. If this is not provided, enrichment will be computed for all clusters. Default: NULL
#' @param deep.split Deep.split to be used if hierachical clustering was used to cluster the projection
#' @return RCA object.
#' @export
#'
doEnrichKEGG<-function(rca.obj,
annotation=NULL,
org="hsa",
key="kegg",
p.Val=0.05,
q.Val=0.2,
p.Adjust.Method="BH",
gene.label.type="SYMBOL",
filename="KEGG_Enrichment.pdf",
background.set="ALL",
background.set.threshold=NULL,
n.Cells.Expressed=NULL,
cluster.ID=NULL,
deep.split=NULL){
#check annotation provided
if (is.null(annotation)){
print("No annotation provided. Download from bioconductor, e.g. org.Hs.eg.db for homo sapiens")
stop()
}
#check background.se.thresholds
if (!(is.null(background.set.threshold)) & !(is.null(n.Cells.Expressed))){
print("Only one threshold can be used.")
stop()
}
#Check type of clustering
if (class(rca.obj$clustering.out)!="hclust"){
deep.split=1
}else{
if (is.null(deep.split)){
print("Please specify the desired cluster split to be used")
stop()
}
}
#map cluster colors to numbers#
clusters<-unique(rca.obj$clustering.out$dynamicColorsList[[deep.split]])
map<-c(1:length(clusters))
names(map)<-clusters
#Determine clusters to be subjected to go test
if(is.null(cluster.ID)){
allClusters<-map
}else{
allClusters<-map[cluster.ID]
}
###Loop through all clusters
for (cluster in allClusters){
if (is.null(cluster.ID)){
print(paste0("Performing KEGG enrichment for cluster ",names(allClusters)[cluster]))
} else {
print(paste0("Performing KEGG enrihment for cluster ",names(allClusters)[1]))
}
clusterGenes<-as.character(rca.obj$DE.genes$Top.DE.genes$Gene[which(rca.obj$DE.genes$Top.DE.genes$Cluster==cluster)])
clusterGenes<-str_to_upper(clusterGenes)
###Generate background set using a threshold based on the mean expression of genes across all cells.
backgroundGeneNames<-row.names(rca.obj$data)
if (!(is.null(background.set.threshold))){
if (background.set=="CLUSTER"){
if(is.null(cluster.ID)){
clusterMeanExp<-apply(rca.obj$data[,which(rca.obj$clustering.out$dynamicColorsList[[1]]==names(allClusters)[cluster])],1,mean)
}else{
clusterMeanExp<-apply(rca.obj$data[,which(rca.obj$clustering.out$dynamicColorsList[[1]]==names(allClusters)[1])],1,mean)
}
}else{
clusterMeanExp<-apply(rca.obj$data,1,mean)
}
if (is.numeric(background.set.threshold)){
backgroundGeneNames<-row.names(rca.obj$data)[which(clusterMeanExp>background.set.threshold)]
}else{
labels<-c("Min","1stQ","Median","Mean","3rdQ")
index<-which(labels == background.set.threshold)
if (isEmpty(index)){
print("The provided value for the background.set.threshold is not valid")
stop()
}
backgroundGeneNames<-row.names(rca.obj$data)[which(clusterMeanExp>summary(clusterMeanExp)[index])]
}
}
###Generate background set using a threshold based on the mean expression of genes across all cells.
if (!(is.null(n.Cells.Expressed))){
geneExpVec <- Matrix::rowSums(rca.obj$raw.data>0)
backgroundGeneNames<-row.names(rca.obj$data)[which(geneExpVec > min.cell.exp)]
}
###Relabel genes in case they are not in ENTREZ gene ID format already
if (gene.label.type != "ENTREZID"){
backgroundENTREZ<-clusterProfiler::bitr(backgroundGeneNames, fromType = gene.label.type, toType = c("ENTREZID"), OrgDb = annotation)
gene.df <- clusterProfiler::bitr(clusterGenes, fromType = gene.label.type, toType = c("ENTREZID"), OrgDb = annotation)
} else {
backgroundENTREZ <- data.frame(ENTREZID=backgroundGeneNames)
gene.df <- data.frame(ENTREZID=clusterGenes)
}
###Perfom actual enrichemt test
ggo <- clusterProfiler::enrichKEGG(gene = gene.df$ENTREZID,
organism = org,
keyType = key,
pAdjustMethod = p.Adjust.Method,
pvalueCutoff = p.Val,
qvalueCutoff = q.Val,
universe = backgroundENTREZ$ENTREZID)
if (!is.null(ggo)){
if (dim(as.data.frame(ggo))[1] != 0){
if (is.null(cluster.ID)){
#Generate and save barplot
ggplot2::ggsave(paste0("barplot_",names(allClusters)[cluster],"_",filename),barplot(ggo),width=15,height=8,units="in")
#Generate and save dotplot
ggplot2::ggsave(paste0("Dotplot_",names(allClusters)[cluster],"_",filename),clusterProfiler::dotplot(ggo),width=15,height=8,units="in")
} else {
#Generate and save barplot
ggplot2::ggsave(paste0("barplot_",names(allClusters)[1],"_",filename),barplot(ggo),width=15,height=8,units="in")
#Generate and save dotplot
ggplot2::ggsave(paste0("Dotplot_",names(allClusters)[1],"_",filename),clusterProfiler::dotplot(ggo),width=15,height=8,units="in")
}
}
}
}
}
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