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R/extract_splice_sites.R
In Rhisat2: R Wrapper for HISAT2 Aligner
Defines functions
extract_splice_sites
Documented in
extract_splice_sites
#' Extract splice sites from annotation
#'
#' This function extracts splice sites from an annotation object (a gtf/gff3
#' file, a \code{GRanges} object or a \code{TxDb} object) and saves them in a
#' text file formatted such that it can be directly used with HISAT2, by
#' providing it as the argument \code{known-splicesite-infile}.
#'
#' @param features Either the path to a gtf/gff3 file containing the genomic
#' features, a GRanges object or a TxDb object.
#' @param outfile Character scalar. The path to a text file where the extracted
#' splice sites will be written.
#' @param min_length Integer scalar. Junctions corresponding to introns below
#' this size will not be reported. The default setting in HISAT2 is 5.
#'
#' @author Charlotte Soneson
#'
#' @export
#'
#' @references
#' Kim D, Langmead B and Salzberg SL. HISAT: a fast spliced aligner with low
#' memory requirements. Nature Methods 12:357-360 (2015).
#'
#' @return Nothing is returned, but the splice junction coordinates are written
#' to \code{outfile}.
#'
#' @examples
#' tmp <- tempfile()
#' extract_splice_sites(features=system.file("extdata/refs/genes.gtf",
#' package="Rhisat2"),
#' outfile=tmp, min_length=5)
#'
#' @importFrom GenomicFeatures makeTxDbFromGFF
#' @importFrom SGSeq convertToTxFeatures type
#' @importFrom GenomicRanges start end width seqnames strand
#' @importFrom methods is
#' @importFrom utils write.table
#'
extract_splice_sites <- function(features, outfile, min_length=5) {
## Create TxDb object from the input features
if (methods::is(features, "character")) {
if (!file.exists(features)) {
stop("'features' is a character string, but the corresponding ",
"file does not exist.")
}
tryCatch({
txdb <- GenomicFeatures::makeTxDbFromGFF(features, format = "auto")
}, error = function(e) {
stop("'features' is a character string corresponding to an ",
"existing file, but the file is not compatible with ",
"'makeTxDbFromGFF'.")
})
} else if (methods::is(features, "TxDb")) {
txdb <- features
} else if (methods::is(features, "GRanges")) {
txdb <- GenomicFeatures::makeTxDbFromGRanges(features)
} else {
stop("The 'features' argument is not in one of the supported ",
"formats (path to gtf/gff3 file, TxDb, GRanges).")
}
## Extract junctions
txf <- SGSeq::convertToTxFeatures(txdb)
txf <- txf[SGSeq::type(txf) == "J"]
## hisat2 keeps only junctions where the intron is at least a certain length
## (5bp by default, note that width() returns the intron length + the two
## flanking bases)
txf <- txf[GenomicRanges::width(txf) >= (min_length + 2)]
## Save junctions to a text file
df <- data.frame(chr = as.character(GenomicRanges::seqnames(txf)),
start = GenomicRanges::start(txf) - 1,
end = GenomicRanges::end(txf) - 1,
strand = GenomicRanges::strand(txf),
stringsAsFactors = FALSE)
df <- df[order(df$chr, df$start, df$end, df$strand), ]
## Make sure that scientific notation is not used in the text file
df$start <- as.integer(df$start)
df$end <- as.integer(df$end)
utils::write.table(
df, file = outfile,
row.names = FALSE, col.names = FALSE, quote = FALSE, sep = "\t"
)
}
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Defines functions extract_splice_sites
Documented in extract_splice_sites
#' Extract splice sites from annotation
#'
#' This function extracts splice sites from an annotation object (a gtf/gff3
#' file, a \code{GRanges} object or a \code{TxDb} object) and saves them in a
#' text file formatted such that it can be directly used with HISAT2, by
#' providing it as the argument \code{known-splicesite-infile}.
#'
#' @param features Either the path to a gtf/gff3 file containing the genomic
#' features, a GRanges object or a TxDb object.
#' @param outfile Character scalar. The path to a text file where the extracted
#' splice sites will be written.
#' @param min_length Integer scalar. Junctions corresponding to introns below
#' this size will not be reported. The default setting in HISAT2 is 5.
#'
#' @author Charlotte Soneson
#'
#' @export
#'
#' @references
#' Kim D, Langmead B and Salzberg SL. HISAT: a fast spliced aligner with low
#' memory requirements. Nature Methods 12:357-360 (2015).
#'
#' @return Nothing is returned, but the splice junction coordinates are written
#' to \code{outfile}.
#'
#' @examples
#' tmp <- tempfile()
#' extract_splice_sites(features=system.file("extdata/refs/genes.gtf",
#' package="Rhisat2"),
#' outfile=tmp, min_length=5)
#'
#' @importFrom GenomicFeatures makeTxDbFromGFF
#' @importFrom SGSeq convertToTxFeatures type
#' @importFrom GenomicRanges start end width seqnames strand
#' @importFrom methods is
#' @importFrom utils write.table
#'
extract_splice_sites <- function(features, outfile, min_length=5) {
## Create TxDb object from the input features
if (methods::is(features, "character")) {
if (!file.exists(features)) {
stop("'features' is a character string, but the corresponding ",
"file does not exist.")
}
tryCatch({
txdb <- GenomicFeatures::makeTxDbFromGFF(features, format = "auto")
}, error = function(e) {
stop("'features' is a character string corresponding to an ",
"existing file, but the file is not compatible with ",
"'makeTxDbFromGFF'.")
})
} else if (methods::is(features, "TxDb")) {
txdb <- features
} else if (methods::is(features, "GRanges")) {
txdb <- GenomicFeatures::makeTxDbFromGRanges(features)
} else {
stop("The 'features' argument is not in one of the supported ",
"formats (path to gtf/gff3 file, TxDb, GRanges).")
}
## Extract junctions
txf <- SGSeq::convertToTxFeatures(txdb)
txf <- txf[SGSeq::type(txf) == "J"]
## hisat2 keeps only junctions where the intron is at least a certain length
## (5bp by default, note that width() returns the intron length + the two
## flanking bases)
txf <- txf[GenomicRanges::width(txf) >= (min_length + 2)]
## Save junctions to a text file
df <- data.frame(chr = as.character(GenomicRanges::seqnames(txf)),
start = GenomicRanges::start(txf) - 1,
end = GenomicRanges::end(txf) - 1,
strand = GenomicRanges::strand(txf),
stringsAsFactors = FALSE)
df <- df[order(df$chr, df$start, df$end, df$strand), ]
## Make sure that scientific notation is not used in the text file
df$start <- as.integer(df$start)
df$end <- as.integer(df$end)
utils::write.table(
df, file = outfile,
row.names = FALSE, col.names = FALSE, quote = FALSE, sep = "\t"
)
}
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