R/loadPancreasDatasets.R
In bhklab/MetaGxPancreas: Transcriptomic Pancreatic Cancer Datasets
Defines functions
loadPancreasDatasets
Documented in
loadPancreasDatasets
#' Function to load pancreas cancer expression profiles from the Experiment Hub
#'
#' This function returns pancreas cancer patient cohorts in SummarizedExperiment object
#' from the hub and a vector of patients from the datasets that are duplicates
#'
#' @param removeDuplicates remove patients with a Spearman correlation greater
#' than or equal to 0.98 with other patient expression profiles (default TRUE)
#' @param quantileCutoff A numeric between 0 and 1 specifying to remove genes with
#' standard deviation below the required quantile (default 0)
#' @param rescale apply centering and scaling to the expression sets (default FALSE)
#' @param minNumberGenes an integer specifying to remove expression sets with less genes
#' than this number (default 0)
#' @param minSampleSize an integer specifying the minimum number of patients required in an SE (default 0)
#' @param minNumberEvents an integer specifying how man survival events must be in the dataset to keep the dataset
#' (default 0)
#' @param removeSeqSubset currently only removes the ICGSSEQ dataset as it contains the same patients as
#' the ICGS microarray dataset (default TRUE, currently just ICGSSEQ)
#' @param keepCommonOnly remove probes not common to all datasets (default FALSE)
#' @param imputeMissing impute missing expression value via knn
#'
#' @return a list with two elements. The First element named SummarizedExperiments
#' contains the datasets as Bioconductor SummarizedExperiment objects.
#' The second element named duplicates contains a vector with patient IDs for the
#' duplicate patients (those with Spearman correlation greater than or equal to
#' 0.98 with other patient expression profiles).
#'
#' @examples
#' sumExptsAndDuplicates <- loadPancreasDatasets()
#'
#' @importFrom SummarizedExperiment SummarizedExperiment assays colData rowData assay
#' @importFrom ExperimentHub ExperimentHub
#' @importFrom S4Vectors metadata
#' @importFrom AnnotationHub query
#' @importFrom stats quantile
#' @importFrom impute impute.knn
#' @importFrom stats sd complete.cases
#'
#' @export
loadPancreasDatasets <- function(removeDuplicates = TRUE, quantileCutoff = 0, rescale = FALSE,
minNumberGenes = NA, minSampleSize = NA, minNumberEvents = NA,
removeSeqSubset = FALSE, keepCommonOnly = FALSE,
imputeMissing = FALSE)
{
## -----------------------------------------------------------------------------
## Helper function
## -----------------------------------------------------------------------------
.filterQuantile <- function(SE, quantile){
message(metadata(SE)$name)
exprs <- assay(SE, 'exprs')
geneSd <- apply(exprs, 1, sd, na.rm=TRUE)
geneQu <- stats::quantile(geneSd, probs = quantile, na.rm=TRUE)
cutoff <- sum(geneSd < geneQu, na.rm=TRUE) / length(geneSd)
if ( abs(quantile - cutoff) <= 0.01 ){
exprs <- exprs[intersect(geneSd > geneQu, !is.na(geneSd)), ]
return(SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=exprs),
rowData=rowData(SE)[which(rowData(SE)$gene %in% rownames(exprs)),],
colData=colData(SE)))
message()
} else {
return(SE)
}
}
`%notin%` <- Negate(`%in%`)
## -----------------------------------------------------------------------------
## Load the SEs
## -----------------------------------------------------------------------------
hub = ExperimentHub::ExperimentHub()
pancreasData = query(hub, c("MetaGxPancreas", "SummarizedExperiment"))
suppressMessages({ SEs = lapply(pancreasData, function(x) x[[names(x)]]) })
names(SEs) = pancreasData$title
duplicates = c("ICGC_0400", "ICGC_0402", "GSM388116", "GSM388118",
"GSM388120", "GSM388145", "GSM299238", "GSM299239", "GSM299240")
if (removeDuplicates) {
SEs = lapply(SEs, function(SE) {
keepSamples <- rownames(colData(SE)) %notin% duplicates
SE[, keepSamples]
})
message( sprintf("Filtered out duplicated samples: %s",
paste(duplicates, collapse=", ")) )
}
if(quantileCutoff > 0 && quantileCutoff < 1){
SEs <- lapply(SEs, function(SE) .filterQuantile(SE,
quantile=quantileCutoff)
)
}
if (rescale) {
SEs <- lapply(SEs, function(SE) {
return(SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=t(scale(t(assays(SE)$exprs)))),
rowData=rowData(SE),
colData=colData(SE)))
})
message(paste0("Done: Expression profiles rescaled (rescale = ", rescale, ")"))
}
if (!is.na(minNumberGenes)) {
SEs <- lapply(SEs, function(SE) {
if (length(rownames(SE)) > minNumberGenes) {
return(SE)
} else {
message(paste0("Filtered out: ", metadata(SE)$name, " (minNumberGenes < ",
minNumberGenes, ")"))
}
})
SEs <- SEs[!sapply(SEs, is.null)]
}
if (!is.na(minSampleSize)) {
SEs <- lapply(SEs, function(SE) {
if (length(colnames(SE)) > minSampleSize) {
return(SE)
} else {
message(paste0("Filtered out: ", metadata(SE)$name,
" (minSampleSize < ", minSampleSize, ")"))
}
})
SEs <- SEs[!sapply(SEs, is.null)]
}
if (!is.na(minNumberEvents)) {
SEs <- lapply(SE, function(SE) {
if (length(which(!is.na(colData(SE)$vital_status))) > minNumberEvents) {
return(SE)
} else {
message(paste0("Filtered out: ", metadata(SE)$name,
" (minNumberEvents < ", minNumberEvents, ")"))
}
})
SEs <- SEs[!sapply(SEs, is.null)]
}
if (removeSeqSubset) {
SEs$ICGCSEQ = NULL
SEs <- SEs[!sapply(SEs, is.null)]
}
if (keepCommonOnly) {
featuresL <- lapply(SEs, rownames)
commonFeatures <- Reduce(intersect, featuresL)
SEs <- lapply(SEs, function(SE){
return(SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=assays(SE)$exprs[which(rownames(assays(SE)$exprs)
%in% commonFeatures), , drop=FALSE]),
rowData=rowData(SE)[which(rownames(rowData(SE)) %in% commonFeatures),],
colData=colData(SE)))
})
}
if (imputeMissing) {
missingData <- which(vapply(SEs, function(SE)
sum(!complete.cases(assays(SE)$exprs)) > 0, numeric(1)) == 1)
message( sprintf("Missing data in : %s",
paste(names(missingData), collapse=", ")) )
if (length(missingData) > 0) {
for (idx in missingData) {
SE <- SEs[[idx]]
SEs[[idx]] <- SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=impute::impute.knn(assays(SE)$exprs)$data),
rowData=rowData(SE), colData=colData(SE))
}
}
}
metaGxPancreas = list(SEs, duplicates)
names(metaGxPancreas) = c("SummarizedExperiments", "duplicates")
return(metaGxPancreas)
}
bhklab/MetaGxPancreas documentation built on Aug. 12, 2021, 8:50 p.m.
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Defines functions loadPancreasDatasets
Documented in loadPancreasDatasets
#' Function to load pancreas cancer expression profiles from the Experiment Hub
#'
#' This function returns pancreas cancer patient cohorts in SummarizedExperiment object
#' from the hub and a vector of patients from the datasets that are duplicates
#'
#' @param removeDuplicates remove patients with a Spearman correlation greater
#' than or equal to 0.98 with other patient expression profiles (default TRUE)
#' @param quantileCutoff A numeric between 0 and 1 specifying to remove genes with
#' standard deviation below the required quantile (default 0)
#' @param rescale apply centering and scaling to the expression sets (default FALSE)
#' @param minNumberGenes an integer specifying to remove expression sets with less genes
#' than this number (default 0)
#' @param minSampleSize an integer specifying the minimum number of patients required in an SE (default 0)
#' @param minNumberEvents an integer specifying how man survival events must be in the dataset to keep the dataset
#' (default 0)
#' @param removeSeqSubset currently only removes the ICGSSEQ dataset as it contains the same patients as
#' the ICGS microarray dataset (default TRUE, currently just ICGSSEQ)
#' @param keepCommonOnly remove probes not common to all datasets (default FALSE)
#' @param imputeMissing impute missing expression value via knn
#'
#' @return a list with two elements. The First element named SummarizedExperiments
#' contains the datasets as Bioconductor SummarizedExperiment objects.
#' The second element named duplicates contains a vector with patient IDs for the
#' duplicate patients (those with Spearman correlation greater than or equal to
#' 0.98 with other patient expression profiles).
#'
#' @examples
#' sumExptsAndDuplicates <- loadPancreasDatasets()
#'
#' @importFrom SummarizedExperiment SummarizedExperiment assays colData rowData assay
#' @importFrom ExperimentHub ExperimentHub
#' @importFrom S4Vectors metadata
#' @importFrom AnnotationHub query
#' @importFrom stats quantile
#' @importFrom impute impute.knn
#' @importFrom stats sd complete.cases
#'
#' @export
loadPancreasDatasets <- function(removeDuplicates = TRUE, quantileCutoff = 0, rescale = FALSE,
minNumberGenes = NA, minSampleSize = NA, minNumberEvents = NA,
removeSeqSubset = FALSE, keepCommonOnly = FALSE,
imputeMissing = FALSE)
{
## -----------------------------------------------------------------------------
## Helper function
## -----------------------------------------------------------------------------
.filterQuantile <- function(SE, quantile){
message(metadata(SE)$name)
exprs <- assay(SE, 'exprs')
geneSd <- apply(exprs, 1, sd, na.rm=TRUE)
geneQu <- stats::quantile(geneSd, probs = quantile, na.rm=TRUE)
cutoff <- sum(geneSd < geneQu, na.rm=TRUE) / length(geneSd)
if ( abs(quantile - cutoff) <= 0.01 ){
exprs <- exprs[intersect(geneSd > geneQu, !is.na(geneSd)), ]
return(SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=exprs),
rowData=rowData(SE)[which(rowData(SE)$gene %in% rownames(exprs)),],
colData=colData(SE)))
message()
} else {
return(SE)
}
}
`%notin%` <- Negate(`%in%`)
## -----------------------------------------------------------------------------
## Load the SEs
## -----------------------------------------------------------------------------
hub = ExperimentHub::ExperimentHub()
pancreasData = query(hub, c("MetaGxPancreas", "SummarizedExperiment"))
suppressMessages({ SEs = lapply(pancreasData, function(x) x[[names(x)]]) })
names(SEs) = pancreasData$title
duplicates = c("ICGC_0400", "ICGC_0402", "GSM388116", "GSM388118",
"GSM388120", "GSM388145", "GSM299238", "GSM299239", "GSM299240")
if (removeDuplicates) {
SEs = lapply(SEs, function(SE) {
keepSamples <- rownames(colData(SE)) %notin% duplicates
SE[, keepSamples]
})
message( sprintf("Filtered out duplicated samples: %s",
paste(duplicates, collapse=", ")) )
}
if(quantileCutoff > 0 && quantileCutoff < 1){
SEs <- lapply(SEs, function(SE) .filterQuantile(SE,
quantile=quantileCutoff)
)
}
if (rescale) {
SEs <- lapply(SEs, function(SE) {
return(SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=t(scale(t(assays(SE)$exprs)))),
rowData=rowData(SE),
colData=colData(SE)))
})
message(paste0("Done: Expression profiles rescaled (rescale = ", rescale, ")"))
}
if (!is.na(minNumberGenes)) {
SEs <- lapply(SEs, function(SE) {
if (length(rownames(SE)) > minNumberGenes) {
return(SE)
} else {
message(paste0("Filtered out: ", metadata(SE)$name, " (minNumberGenes < ",
minNumberGenes, ")"))
}
})
SEs <- SEs[!sapply(SEs, is.null)]
}
if (!is.na(minSampleSize)) {
SEs <- lapply(SEs, function(SE) {
if (length(colnames(SE)) > minSampleSize) {
return(SE)
} else {
message(paste0("Filtered out: ", metadata(SE)$name,
" (minSampleSize < ", minSampleSize, ")"))
}
})
SEs <- SEs[!sapply(SEs, is.null)]
}
if (!is.na(minNumberEvents)) {
SEs <- lapply(SE, function(SE) {
if (length(which(!is.na(colData(SE)$vital_status))) > minNumberEvents) {
return(SE)
} else {
message(paste0("Filtered out: ", metadata(SE)$name,
" (minNumberEvents < ", minNumberEvents, ")"))
}
})
SEs <- SEs[!sapply(SEs, is.null)]
}
if (removeSeqSubset) {
SEs$ICGCSEQ = NULL
SEs <- SEs[!sapply(SEs, is.null)]
}
if (keepCommonOnly) {
featuresL <- lapply(SEs, rownames)
commonFeatures <- Reduce(intersect, featuresL)
SEs <- lapply(SEs, function(SE){
return(SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=assays(SE)$exprs[which(rownames(assays(SE)$exprs)
%in% commonFeatures), , drop=FALSE]),
rowData=rowData(SE)[which(rownames(rowData(SE)) %in% commonFeatures),],
colData=colData(SE)))
})
}
if (imputeMissing) {
missingData <- which(vapply(SEs, function(SE)
sum(!complete.cases(assays(SE)$exprs)) > 0, numeric(1)) == 1)
message( sprintf("Missing data in : %s",
paste(names(missingData), collapse=", ")) )
if (length(missingData) > 0) {
for (idx in missingData) {
SE <- SEs[[idx]]
SEs[[idx]] <- SummarizedExperiment(metadata=list(name=metadata(SE)$name),
assays=list(exprs=impute::impute.knn(assays(SE)$exprs)$data),
rowData=rowData(SE), colData=colData(SE))
}
}
}
metaGxPancreas = list(SEs, duplicates)
names(metaGxPancreas) = c("SummarizedExperiments", "duplicates")
return(metaGxPancreas)
}
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