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R/ctsGE.R
In ctsGE: Clustering of Time Series Gene Expression data
Defines functions
readTSGE
Documented in
readTSGE
#' Read and merge a set of files containing gene expression data
#'
#' Reads and merges a set of text files containing normalized gene expression
#' data
#'
#' @param files character vector of filenames,
#' or alternative a named list of tables for each time point.
#' @param path character string giving the directory containing the files.
#' The default is the current working directory.
#' @param columns numeric vector stating which two columns contain the tag
#' names and counts, respectively
#' @param labels character vector giving short names to associate with the
#' libraries.
#' @param desc character vector with genes description (annotation),default to
#' NULL
#' Defaults to the file names.
#' @param ... other are passed to read.delim
#'
#' @return A list with four objects:
#' \enumerate{\item expression matrix
#' \item samples names
#' \item tags - genes name
#' \item timePoints - number of time points}
#'
#' @details As input, the ctsGE package expects normalized expression table,
#' where rows are genes and columns are samples
#' Each file is assumed to contained digital gene expression data for one
#' sample (or library), with transcript or gene identifiers in the first
#' column and expression values in the second column.
#' Transcript identifiers are assumed to be unique and not repeated in any one
#' file.
#' By default, the files are assumed to be tab-delimited and to contain column
#' headings.
#' The function forms the union of all transcripts and creates one big table
#' with zeros where necessary.
#' When reading the normalized expression values the function check whether
#' there are rows that their median absolute deviation (MAD) value equal to zero
#' and remove these rows. This step is important in order to continue to the
#' next step of indexing the data.
#' The function will output a message of how many genes were remove.
#'
#' @examples
#' ## Read all .txt files from current working directory
#' data_dir <- system.file("extdata", package = "ctsGE")
#' files <- dir(path=data_dir,pattern = "\\.xls$")
#'
#' # reading only 2000 genes
#' rts <- readTSGE(files, path = data_dir,
#' labels = c("0h","6h","12h","24h","48h","72h"), skip = 10625 )
#' @export
#' @import limma stats utils
#'
#'
readTSGE = function(files,path = NULL,columns=c(1,2),labels = NULL,desc = NULL,
...){
x <- list()
if(!is.list(files)){
d <- taglist <- list()
for (fn in files) {
if (!is.null(path))
fn <- file.path(path, fn)
d[[fn]] <- read.delim(fn, ..., stringsAsFactors = FALSE)
taglist[[fn]] <- as.character(d[[fn]][, columns[1]])
if (any(duplicated(taglist[[fn]]))) {
stop(paste("Repeated tag sequences in", fn))
}
}
}
else{
d <- files
taglist <- list()
for (fn in 1:length(files)) {
taglist[[fn]] <- as.character(d[[fn]][,columns[1]])
if (any(duplicated(taglist[[fn]]))) {
stop(paste(
"Repeated tag sequences in table no.",i,"in the list"))
}
}
}
tags <- unique(unlist(taglist))
ntags <- length(tags)
nfiles <- length(files)
x$tsTable <- matrix(0, ntags, nfiles)
rownames(x$tsTable) <- tags
colnames(x$tsTable) <- labels
if (is.null(colnames(x$tsTable))){
if(!is.list(files)){ colnames(x$tsTable) <-
x$samples <- limma::removeExt(files)
}else{colnames(x$tsTable) <- x$samples <- names(files)}
}else{x$samples <- colnames(x$tsTable)}
for (i in 1:nfiles) {
aa <- match(taglist[[i]], tags)
x$tsTable[aa, i] <- as.numeric(d[[i]][, columns[2]])
}
x$tags <- tags
x$timePoints <- nfiles
## filtering out genes with low expression
tmp <- apply(t(x$tsTable),2,mad)
if(sum(tmp==0)){
x$tsTable <- x$tsTable[names(which(tmp!=0)),]
x$tags <- names(which(tmp!=0))
print(paste0(sum(tmp==0)," Genes were remove"))}
if(!is.null(desc)){
x$desc <- desc
if(sum(tmp==0)){
desc <- desc[which(tmp!=0)]}
x$desc <- as.data.frame(desc)
rownames(x$desc) <- x$tags
colnames(x$desc) <- "desc"}
structure(x,class = "list")
}
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ctsGE documentation built on Nov. 8, 2020, 11:06 p.m.
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Defines functions readTSGE
Documented in readTSGE
#' Read and merge a set of files containing gene expression data
#'
#' Reads and merges a set of text files containing normalized gene expression
#' data
#'
#' @param files character vector of filenames,
#' or alternative a named list of tables for each time point.
#' @param path character string giving the directory containing the files.
#' The default is the current working directory.
#' @param columns numeric vector stating which two columns contain the tag
#' names and counts, respectively
#' @param labels character vector giving short names to associate with the
#' libraries.
#' @param desc character vector with genes description (annotation),default to
#' NULL
#' Defaults to the file names.
#' @param ... other are passed to read.delim
#'
#' @return A list with four objects:
#' \enumerate{\item expression matrix
#' \item samples names
#' \item tags - genes name
#' \item timePoints - number of time points}
#'
#' @details As input, the ctsGE package expects normalized expression table,
#' where rows are genes and columns are samples
#' Each file is assumed to contained digital gene expression data for one
#' sample (or library), with transcript or gene identifiers in the first
#' column and expression values in the second column.
#' Transcript identifiers are assumed to be unique and not repeated in any one
#' file.
#' By default, the files are assumed to be tab-delimited and to contain column
#' headings.
#' The function forms the union of all transcripts and creates one big table
#' with zeros where necessary.
#' When reading the normalized expression values the function check whether
#' there are rows that their median absolute deviation (MAD) value equal to zero
#' and remove these rows. This step is important in order to continue to the
#' next step of indexing the data.
#' The function will output a message of how many genes were remove.
#'
#' @examples
#' ## Read all .txt files from current working directory
#' data_dir <- system.file("extdata", package = "ctsGE")
#' files <- dir(path=data_dir,pattern = "\\.xls$")
#'
#' # reading only 2000 genes
#' rts <- readTSGE(files, path = data_dir,
#' labels = c("0h","6h","12h","24h","48h","72h"), skip = 10625 )
#' @export
#' @import limma stats utils
#'
#'
readTSGE = function(files,path = NULL,columns=c(1,2),labels = NULL,desc = NULL,
...){
x <- list()
if(!is.list(files)){
d <- taglist <- list()
for (fn in files) {
if (!is.null(path))
fn <- file.path(path, fn)
d[[fn]] <- read.delim(fn, ..., stringsAsFactors = FALSE)
taglist[[fn]] <- as.character(d[[fn]][, columns[1]])
if (any(duplicated(taglist[[fn]]))) {
stop(paste("Repeated tag sequences in", fn))
}
}
}
else{
d <- files
taglist <- list()
for (fn in 1:length(files)) {
taglist[[fn]] <- as.character(d[[fn]][,columns[1]])
if (any(duplicated(taglist[[fn]]))) {
stop(paste(
"Repeated tag sequences in table no.",i,"in the list"))
}
}
}
tags <- unique(unlist(taglist))
ntags <- length(tags)
nfiles <- length(files)
x$tsTable <- matrix(0, ntags, nfiles)
rownames(x$tsTable) <- tags
colnames(x$tsTable) <- labels
if (is.null(colnames(x$tsTable))){
if(!is.list(files)){ colnames(x$tsTable) <-
x$samples <- limma::removeExt(files)
}else{colnames(x$tsTable) <- x$samples <- names(files)}
}else{x$samples <- colnames(x$tsTable)}
for (i in 1:nfiles) {
aa <- match(taglist[[i]], tags)
x$tsTable[aa, i] <- as.numeric(d[[i]][, columns[2]])
}
x$tags <- tags
x$timePoints <- nfiles
## filtering out genes with low expression
tmp <- apply(t(x$tsTable),2,mad)
if(sum(tmp==0)){
x$tsTable <- x$tsTable[names(which(tmp!=0)),]
x$tags <- names(which(tmp!=0))
print(paste0(sum(tmp==0)," Genes were remove"))}
if(!is.null(desc)){
x$desc <- desc
if(sum(tmp==0)){
desc <- desc[which(tmp!=0)]}
x$desc <- as.data.frame(desc)
rownames(x$desc) <- x$tags
colnames(x$desc) <- "desc"}
structure(x,class = "list")
}
Try the ctsGE 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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