R/calc_hyper.R
In frhl/genoppi-v4: genoppi
Defines functions
calc_hyper
Documented in
calc_hyper
#' @title Perform hypergeometric test
#' @description Use one-tailed hypergeometric test to calcualte overlap enrichment between proteomic data and other datasets (e.g. InWeb, gene lists, etc.)
#' @param df data.frame containing proteomic data, with gene and significant columns
#' @param listDf data.frame containing data to overlap, with listName, gene and significant columns
#' @param intersectDf data.frame contaning listName and intersectN columns intersectN = vector of boolean variables indicating if total population should be intersect of the two datasets
#' @param bait name of bait protein
#' @return list of data.frame and list. Data.frame contains list_name, successInSample_count (x), sample_count (n), notSample_count (N-n), success_count (k), population_count (N), pvalue. List of lists (for each listName) contains genes names corresponding to each group (successInSample_genes, sample_genes, notSample_genes, success_genes, population_genes).
#' @examples
#' \dontrun{
#' # an example
#'
#' }
#' @export
calc_hyper <- function(df, listDf, intersectDf, bait=NULL){
outDf <- NULL
outList <- list()
# check input
if (is.null(bait)) warning('argument "bait=NULL", no bait was removed.')
if (!is.data.frame(intersectDf)) stop('argument intersectDF but be a valid data.frame. See examples ?calc_hyper.')
# intersect df is no longer required by default. Perhaps give a warning?
#if (is.null(intersectDf)) data.frame(listName=df$listName, intersectN=T)
#if (!is.null(intersectDf)){
# if (intersectDf == T) data.frame(listName=df$listName, intersectN=T)
# if (intersectDf == F) data.frame(listName=df$listName, intersectN=F)
#}
# perform separate enrichment test for each listName in listDf
for (l in unique(listDf$listName)) {
currentDf <- listDf[listDf$listName==l, ]
# total population (N) = intersect of all genes in proteomic data + list data
if (intersectDf$intersectN[intersectDf$listName==l]){
population <- unique(df$gene[df$gene %in% currentDf$gene])
# total population (N) = all genes in proteomic data
} else { population <- unique(df$gene) }
# remove bait if bait is provided
if (!is.null(bait)) { population <- population[population != bait] }
# success in population (k) = enriched genes in proteomic data
success <- unique(df$gene[df$significant & df$gene %in% population])
# sample (n) = significant genes in list
sample <- unique(currentDf$gene[currentDf$significant & currentDf$gene %in% population])
# successInSample (x)
successInSample <- intersect(success,sample)
# population - sample (N - n)
notSample <- setdiff(population,sample)
# Hypergeometric test (one-tailed)
hyperP <- stats::phyper(length(successInSample)-1, length(sample), length(notSample), length(success), lower.tail=F)
# add results to outDf (overlap counts and p-value) and outList (gene names coresponding to overalp counts)
outDf <- rbind(outDf, data.frame(list_name=l, successInSample_count=length(successInSample),
sample_count=length(sample), notSample_count=length(notSample), success_count=length(success),
population_count=length(population), pvalue=hyperP))
outList[[l]] <- list(successInSample_genes=successInSample, sample_genes=sample,
notSample_genes=notSample, success_genes=success, population_genes=population)
}
return(list(statistics=outDf,genes=outList))
}
frhl/genoppi-v4 documentation built on May 5, 2020, 7:16 a.m.
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Defines functions calc_hyper
Documented in calc_hyper
#' @title Perform hypergeometric test
#' @description Use one-tailed hypergeometric test to calcualte overlap enrichment between proteomic data and other datasets (e.g. InWeb, gene lists, etc.)
#' @param df data.frame containing proteomic data, with gene and significant columns
#' @param listDf data.frame containing data to overlap, with listName, gene and significant columns
#' @param intersectDf data.frame contaning listName and intersectN columns intersectN = vector of boolean variables indicating if total population should be intersect of the two datasets
#' @param bait name of bait protein
#' @return list of data.frame and list. Data.frame contains list_name, successInSample_count (x), sample_count (n), notSample_count (N-n), success_count (k), population_count (N), pvalue. List of lists (for each listName) contains genes names corresponding to each group (successInSample_genes, sample_genes, notSample_genes, success_genes, population_genes).
#' @examples
#' \dontrun{
#' # an example
#'
#' }
#' @export
calc_hyper <- function(df, listDf, intersectDf, bait=NULL){
outDf <- NULL
outList <- list()
# check input
if (is.null(bait)) warning('argument "bait=NULL", no bait was removed.')
if (!is.data.frame(intersectDf)) stop('argument intersectDF but be a valid data.frame. See examples ?calc_hyper.')
# intersect df is no longer required by default. Perhaps give a warning?
#if (is.null(intersectDf)) data.frame(listName=df$listName, intersectN=T)
#if (!is.null(intersectDf)){
# if (intersectDf == T) data.frame(listName=df$listName, intersectN=T)
# if (intersectDf == F) data.frame(listName=df$listName, intersectN=F)
#}
# perform separate enrichment test for each listName in listDf
for (l in unique(listDf$listName)) {
currentDf <- listDf[listDf$listName==l, ]
# total population (N) = intersect of all genes in proteomic data + list data
if (intersectDf$intersectN[intersectDf$listName==l]){
population <- unique(df$gene[df$gene %in% currentDf$gene])
# total population (N) = all genes in proteomic data
} else { population <- unique(df$gene) }
# remove bait if bait is provided
if (!is.null(bait)) { population <- population[population != bait] }
# success in population (k) = enriched genes in proteomic data
success <- unique(df$gene[df$significant & df$gene %in% population])
# sample (n) = significant genes in list
sample <- unique(currentDf$gene[currentDf$significant & currentDf$gene %in% population])
# successInSample (x)
successInSample <- intersect(success,sample)
# population - sample (N - n)
notSample <- setdiff(population,sample)
# Hypergeometric test (one-tailed)
hyperP <- stats::phyper(length(successInSample)-1, length(sample), length(notSample), length(success), lower.tail=F)
# add results to outDf (overlap counts and p-value) and outList (gene names coresponding to overalp counts)
outDf <- rbind(outDf, data.frame(list_name=l, successInSample_count=length(successInSample),
sample_count=length(sample), notSample_count=length(notSample), success_count=length(success),
population_count=length(population), pvalue=hyperP))
outList[[l]] <- list(successInSample_genes=successInSample, sample_genes=sample,
notSample_genes=notSample, success_genes=success, population_genes=population)
}
return(list(statistics=outDf,genes=outList))
}
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