Nothing
R/events_vastTools.R
In psichomics: Graphical Interface for Alternative Splicing Quantification, Analysis and Visualisation
Defines functions
parseVastToolsEvent
parseVastToolsAnnotation
Documented in
parseVastToolsAnnotation
parseVastToolsEvent
#' @rdname parseMisoAnnotation
#'
#' @param complexEvents Boolean: should complex events in A3SS and A5SS be
#' parsed?
#'
#' @export
#' @examples
#' # Load sample files
#' folder <- "extdata/eventsAnnotSample/VASTDB/Hsa/TEMPLATES"
#' vastToolsOutput <- system.file(folder, package="psichomics")
#'
#' vast <- parseVastToolsAnnotation(vastToolsOutput)
parseVastToolsAnnotation <- function(
folder,
types=c("ALT3", "ALT5", "COMBI", "IR", "MERGE3m", "MIC", "EXSK", "MULTI"),
genome="Hsa",
complexEvents=FALSE) {
display("Retrieving VAST-TOOLS annotation...")
typesRegex <- sprintf("(%s)", paste(types, collapse="|"))
typesFile <- list.files(folder, full.names=TRUE, pattern=sprintf(
"%s\\.%s\\..*.txt$", genome, typesRegex))
# Remove first file if available
typesFile <- grep("\\.1\\.txt", typesFile, invert=TRUE, value=TRUE)
names(typesFile) <- gsub(sprintf("^.*%s\\.(.*?)\\..*\\.txt$", genome),
"\\1", typesFile)
annot <- lapply(typesFile, read.delim, stringsAsFactors = FALSE,
comment.char="#", header=TRUE)
display("Parsing VAST-TOOLS annotation...")
types <- names(annot)
skippedExon <- c("COMBI", "MERGE3m", "MIC", "EXSK", "MULTI")
parseEvents <- function(i) {
type <- types[i]
display(type)
a <- annot[[i]]
if (nrow(a) > 0) {
parsed <- parseVastToolsEvent(a)
if (!complexEvents) {
if (type == "ALT3") {
filter <- !is.na(parsed$A1.start)
parsed <- parsed[filter, ]
parsed <- uniqueBy(parsed, "Chromosome", "Strand",
"C1.end", "A1.start", "C2.start")
} else if (type == "ALT5") {
filter <- !is.na(parsed$A1.end)
parsed <- parsed[filter, ]
parsed <- uniqueBy(parsed, "Chromosome", "Strand",
"C1.end", "A1.end", "C2.start")
} else if (type %in% skippedExon) {
C1.end <- vapply(parsed$C1.end, length, numeric(1)) > 1
A1.start <- vapply(parsed$A1.start, length, numeric(1)) > 1
A1.end <- vapply(parsed$A1.end, length, numeric(1)) > 1
C2.start <- vapply(parsed$C2.start, length, numeric(1)) > 1
filter <- !(C1.end | A1.start | A1.end | C2.start)
parsed <- parsed[filter, ]
}
}
return(parsed)
}
}
events <- lapply(seq_along(annot), parseEvents)
events <- rbind.fill(events)
events <- unique(events)
names(events)[match("Gene.symbol", names(events))] <- "Gene"
# Remove duplicated skipped exons from multiple event types
skipped <- events$Event.type == "SE"
uniq <- uniqueBy(events[skipped, ], "Chromosome", "Strand",
"C1.end", "A1.start", "A1.end", "C2.start")
events <- rbind(events[!skipped, ], uniq)
class(events) <- c("ASevents", class(events))
return(events)
}
#' Parses an alternative splicing event from VAST-TOOLS
#'
#' @details Junctions are parsed from
#'
#' @param event Data.frame: VAST-TOOLS event containing gene symbol, event ID,
#' length, junctions coordinates, event type and inclusion levels for both
#' samples
#'
#' @note Only supports to parse one event at a time.
#'
#' @return List with the event attributes (chromosome, strand, event type and
#' the position of the exon boundaries)
#' @keywords internal
#'
#' @examples
#' event <- read.table(text =
#' "NFYA HsaEX0042823 chr6:41046768-41046903 136 chr6:41040823,41046768-41046903,41051785 C2 0 N 0 N"
#' )
#' psichomics:::parseVastToolsEvent(event)
parseVastToolsEvent <- function(event) {
# Create list with event attributes
event_attrs <- data.frame("Program" = "VAST-TOOLS",
"Gene symbol" = as.character(event[[1]]),
"Event ID" = as.character(event[[2]]),
stringsAsFactors = FALSE)
# By default, assumes things may be parsable as an exon skipping
# TODO (NunoA): make sure this is intended...
event_type <- as.character(event[1, 6])
event_type <- switch(event_type,
"IR-C" = "RI", "IR-S" = "RI",
"Alt3" = "A3SS", "Alt5" = "A5SS",
"SE")
event_attrs[["Event.type"]] <- event_type
# Split junctions position
coord <- as.character(event[[5]])
junctions <- strsplit(coord, ":|,|-|=")
# Split multiple acceptors/donors (separated with +)
splitJunctions <- function(i) {
split <- strsplit(i, "+", fixed=TRUE)
if (length(split) < 4)
split[[4]] <- character(0)
return(split)
}
junctions <- lapply(junctions, splitJunctions)
junctions <- data.matrix(do.call(rbind, junctions))
# Get chromosomes and convert numbers to numeric
event_attrs[["Chromosome"]] <- junctions[, 1]
nrowJunctions <- nrow(junctions)
junctions <- junctions[, 2:ncol(junctions)]
junctions <- matrix(lapply(junctions, as.numeric), nrow = nrowJunctions)
# Get strand for retained intron
if (event_type == "RI") {
len <- nchar(coord)
strand <- substr(coord, len, len)
parsed <- parseVastToolsRI(junctions, strand)
} else {
parseJunctions <- switch(event_type,
"SE" = parseVastToolsSE,
"A3SS" = parseVastToolsA3SS,
"A5SS" = parseVastToolsA5SS)
parsed <- parseJunctions(junctions)
}
if (ncol(event) > 7) {
more_attrs <- data.frame("Inclusion level A" = as.numeric(event[[7]]),
"Inclusion level B" = as.numeric(event[[9]]),
stringsAsFactors = FALSE)
return(cbind(event_attrs, more_attrs, parsed))
} else {
return(cbind(event_attrs, parsed))
}
}
#' Parse junctions of an event from VAST-TOOLS according to event type
#'
#' @param junctions Data.frame or matrix: exon-exon junctions of alternative
#' splicing events (it must have 4 columns)
#'
#' @details The following event types are available to be parsed:
#' \itemize{
#' \item{\bold{SE} (skipped exon)}
#' \item{\bold{RI} (retained intron)}
#' \item{\bold{A5SS} (alternative 5' splice site)}
#' \item{\bold{A3SS} (alternative 3' splice site)}
#' }
#'
#' @seealso \code{\link{parseVastToolsEvent}()}
#'
#' @return List of parsed junctions
#' @keywords internal
#'
#' @examples
#' junctions <- read.table(text = "41040823 41046768 41046903 41051785")
#' psichomics:::parseVastToolsSE(junctions)
#'
#' # these functions are vectorised!
#' junctions <- read.table(text = "41040823 41046768 41046903 41051785
#' 58864658 58864693 58864294 58864563")
#' psichomics:::parseVastToolsSE(junctions)
parseVastToolsSE <- function (junctions) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
# Strand is plus if the first junction is lower than the last junction
plus <- sapply(junctions[, 1], "[[", 1) < sapply(junctions[, 4], "[[", 1)
parsed[["Strand"]] <- ifelse(plus, "+", "-")
parsed[["C1.end"]] <- junctions[, 1]
parsed[["C2.start"]] <- junctions[, 4]
# Plus strand
parsed[plus, ][["A1.start"]] <- junctions[plus, 2]
parsed[plus, ][["A1.end"]] <- junctions[plus, 3]
# Minus strand
parsed[!plus, ][["A1.start"]] <- junctions[!plus, 3]
parsed[!plus, ][["A1.end"]] <- junctions[!plus, 2]
return(parsed)
}
#' @rdname parseVastToolsSE
#' @param strand Character: positive (+) or negative (-) strand
#'
#' @examples
#'
#' junctions <- read.table(text = "58864658 58864693 58864294 58864563")
#' psichomics:::parseVastToolsRI(junctions, strand = "+")
parseVastToolsRI <- function (junctions, strand) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
plus <- strand == "+"
parsed[["Strand"]] <- strand
# Plus strand
parsed[plus, ][["C1.start"]] <- junctions[plus, 1]
parsed[plus, ][["C1.end"]] <- junctions[plus, 2]
parsed[plus, ][["C2.start"]] <- junctions[plus, 3]
parsed[plus, ][["C2.end"]] <- junctions[plus, 4]
# Minus strand
parsed[!plus, ][["C1.start"]] <- junctions[!plus, 2]
parsed[!plus, ][["C1.end"]] <- junctions[!plus, 1]
parsed[!plus, ][["C2.start"]] <- junctions[!plus, 4]
parsed[!plus, ][["C2.end"]] <- junctions[!plus, 3]
return(parsed)
}
#' @rdname parseVastToolsSE
#'
#' @examples
#'
#' junctions <- rbind(
#' c(36276385, list(c(36277798, 36277315)), 36277974),
#' c(7133604, 7133377, list(c(7133474, 7133456)))
#' )
#' psichomics:::parseVastToolsA3SS(junctions)
parseVastToolsA3SS <- function (junctions) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
# Check if there aren't junctions missing
is2Available <- sapply(junctions[,2], length) > 0
is3Available <- sapply(junctions[,3], length) > 0
# Strand is plus if the first junction is lower than the other junctions
available <- ifelse(is3Available, junctions[, 3], junctions[, 2])
plus <- sapply(junctions[, 1], "[[", 1) < sapply(available, "[[", 1)
parsed[["Strand"]] <- ifelse(plus, "+", "-")
parsed[["C1.end"]] <- junctions[, 1]
# Plus strand
plus3 <- plus & is3Available
bigList <- sapply(junctions[, 2], length) > 2 # filter unrecognised events
parsed[plus & !bigList, ][c("A1.start", "A2.start")] <-
ldply(junctions[plus & !bigList, 2])
parsed[plus & bigList, ][["A2.start"]] <- junctions[plus & bigList, 2]
parsed[plus3, ][["A2.end"]] <- junctions[plus3, 3]
# Minus strand
minus2 <- !plus & is2Available
bigList <- sapply(junctions[, 3], length) > 2 # filter unrecognised events
parsed[!plus & !bigList, ][c("A1.start", "A2.start")] <-
ldply(junctions[!plus & !bigList, 3])
parsed[!plus & bigList, ][["A2.start"]] <- junctions[!plus & bigList, 3]
parsed[minus2, ][["A2.end"]] <- junctions[minus2, 2]
return(parsed)
}
#' @rdname parseVastToolsSE
#'
#' @examples
#'
#' junctions <- rbind(
#' c(74650610, list(c(74650654, 74650658)), 74650982),
#' c(list(c(49557666, 49557642), 49557746, 49557470))
#' )
#' psichomics:::parseVastToolsA5SS(junctions)
parseVastToolsA5SS <- function (junctions) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
# Check if there aren't junctions missing
is1Available <- sapply(junctions[,1], length) > 0
is2Available <- sapply(junctions[,2], length) > 0
# Strand is plus if the first junction is lower than the other junctions
available <- ifelse(is2Available, junctions[, 2], junctions[, 1])
plus <- sapply(available, "[[", 1) < sapply(junctions[, 3], "[[", 1)
parsed[["Strand"]] <- ifelse(plus, "+", "-")
parsed[["C2.start"]] <- junctions[, 3]
# Plus strand
plus1 <- plus & is1Available
bigList <- sapply(junctions[, 2], length) > 2 # filter unrecognised events
parsed[plus1, ][["A2.start"]] <- junctions[plus1, 1]
parsed[plus & !bigList, ][c("A1.end", "A2.end")] <-
ldply(junctions[plus & !bigList, 2])
parsed[plus & bigList, ][["A2.end"]] <- junctions[plus & bigList, 2]
# Minus strand
minus2 <- !plus & is2Available
bigList <- sapply(junctions[, 1], length) > 2 # filter unrecognised events
parsed[minus2, ][["A2.start"]] <- junctions[minus2, 2]
parsed[!plus & !bigList, ][c("A1.end", "A2.end")] <-
ldply(junctions[!plus & !bigList, 1])
parsed[!plus & bigList, ][["A2.end"]] <- junctions[!plus & bigList, 1]
return(parsed)
}
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Defines functions parseVastToolsEvent parseVastToolsAnnotation
Documented in parseVastToolsAnnotation parseVastToolsEvent
#' @rdname parseMisoAnnotation
#'
#' @param complexEvents Boolean: should complex events in A3SS and A5SS be
#' parsed?
#'
#' @export
#' @examples
#' # Load sample files
#' folder <- "extdata/eventsAnnotSample/VASTDB/Hsa/TEMPLATES"
#' vastToolsOutput <- system.file(folder, package="psichomics")
#'
#' vast <- parseVastToolsAnnotation(vastToolsOutput)
parseVastToolsAnnotation <- function(
folder,
types=c("ALT3", "ALT5", "COMBI", "IR", "MERGE3m", "MIC", "EXSK", "MULTI"),
genome="Hsa",
complexEvents=FALSE) {
display("Retrieving VAST-TOOLS annotation...")
typesRegex <- sprintf("(%s)", paste(types, collapse="|"))
typesFile <- list.files(folder, full.names=TRUE, pattern=sprintf(
"%s\\.%s\\..*.txt$", genome, typesRegex))
# Remove first file if available
typesFile <- grep("\\.1\\.txt", typesFile, invert=TRUE, value=TRUE)
names(typesFile) <- gsub(sprintf("^.*%s\\.(.*?)\\..*\\.txt$", genome),
"\\1", typesFile)
annot <- lapply(typesFile, read.delim, stringsAsFactors = FALSE,
comment.char="#", header=TRUE)
display("Parsing VAST-TOOLS annotation...")
types <- names(annot)
skippedExon <- c("COMBI", "MERGE3m", "MIC", "EXSK", "MULTI")
parseEvents <- function(i) {
type <- types[i]
display(type)
a <- annot[[i]]
if (nrow(a) > 0) {
parsed <- parseVastToolsEvent(a)
if (!complexEvents) {
if (type == "ALT3") {
filter <- !is.na(parsed$A1.start)
parsed <- parsed[filter, ]
parsed <- uniqueBy(parsed, "Chromosome", "Strand",
"C1.end", "A1.start", "C2.start")
} else if (type == "ALT5") {
filter <- !is.na(parsed$A1.end)
parsed <- parsed[filter, ]
parsed <- uniqueBy(parsed, "Chromosome", "Strand",
"C1.end", "A1.end", "C2.start")
} else if (type %in% skippedExon) {
C1.end <- vapply(parsed$C1.end, length, numeric(1)) > 1
A1.start <- vapply(parsed$A1.start, length, numeric(1)) > 1
A1.end <- vapply(parsed$A1.end, length, numeric(1)) > 1
C2.start <- vapply(parsed$C2.start, length, numeric(1)) > 1
filter <- !(C1.end | A1.start | A1.end | C2.start)
parsed <- parsed[filter, ]
}
}
return(parsed)
}
}
events <- lapply(seq_along(annot), parseEvents)
events <- rbind.fill(events)
events <- unique(events)
names(events)[match("Gene.symbol", names(events))] <- "Gene"
# Remove duplicated skipped exons from multiple event types
skipped <- events$Event.type == "SE"
uniq <- uniqueBy(events[skipped, ], "Chromosome", "Strand",
"C1.end", "A1.start", "A1.end", "C2.start")
events <- rbind(events[!skipped, ], uniq)
class(events) <- c("ASevents", class(events))
return(events)
}
#' Parses an alternative splicing event from VAST-TOOLS
#'
#' @details Junctions are parsed from
#'
#' @param event Data.frame: VAST-TOOLS event containing gene symbol, event ID,
#' length, junctions coordinates, event type and inclusion levels for both
#' samples
#'
#' @note Only supports to parse one event at a time.
#'
#' @return List with the event attributes (chromosome, strand, event type and
#' the position of the exon boundaries)
#' @keywords internal
#'
#' @examples
#' event <- read.table(text =
#' "NFYA HsaEX0042823 chr6:41046768-41046903 136 chr6:41040823,41046768-41046903,41051785 C2 0 N 0 N"
#' )
#' psichomics:::parseVastToolsEvent(event)
parseVastToolsEvent <- function(event) {
# Create list with event attributes
event_attrs <- data.frame("Program" = "VAST-TOOLS",
"Gene symbol" = as.character(event[[1]]),
"Event ID" = as.character(event[[2]]),
stringsAsFactors = FALSE)
# By default, assumes things may be parsable as an exon skipping
# TODO (NunoA): make sure this is intended...
event_type <- as.character(event[1, 6])
event_type <- switch(event_type,
"IR-C" = "RI", "IR-S" = "RI",
"Alt3" = "A3SS", "Alt5" = "A5SS",
"SE")
event_attrs[["Event.type"]] <- event_type
# Split junctions position
coord <- as.character(event[[5]])
junctions <- strsplit(coord, ":|,|-|=")
# Split multiple acceptors/donors (separated with +)
splitJunctions <- function(i) {
split <- strsplit(i, "+", fixed=TRUE)
if (length(split) < 4)
split[[4]] <- character(0)
return(split)
}
junctions <- lapply(junctions, splitJunctions)
junctions <- data.matrix(do.call(rbind, junctions))
# Get chromosomes and convert numbers to numeric
event_attrs[["Chromosome"]] <- junctions[, 1]
nrowJunctions <- nrow(junctions)
junctions <- junctions[, 2:ncol(junctions)]
junctions <- matrix(lapply(junctions, as.numeric), nrow = nrowJunctions)
# Get strand for retained intron
if (event_type == "RI") {
len <- nchar(coord)
strand <- substr(coord, len, len)
parsed <- parseVastToolsRI(junctions, strand)
} else {
parseJunctions <- switch(event_type,
"SE" = parseVastToolsSE,
"A3SS" = parseVastToolsA3SS,
"A5SS" = parseVastToolsA5SS)
parsed <- parseJunctions(junctions)
}
if (ncol(event) > 7) {
more_attrs <- data.frame("Inclusion level A" = as.numeric(event[[7]]),
"Inclusion level B" = as.numeric(event[[9]]),
stringsAsFactors = FALSE)
return(cbind(event_attrs, more_attrs, parsed))
} else {
return(cbind(event_attrs, parsed))
}
}
#' Parse junctions of an event from VAST-TOOLS according to event type
#'
#' @param junctions Data.frame or matrix: exon-exon junctions of alternative
#' splicing events (it must have 4 columns)
#'
#' @details The following event types are available to be parsed:
#' \itemize{
#' \item{\bold{SE} (skipped exon)}
#' \item{\bold{RI} (retained intron)}
#' \item{\bold{A5SS} (alternative 5' splice site)}
#' \item{\bold{A3SS} (alternative 3' splice site)}
#' }
#'
#' @seealso \code{\link{parseVastToolsEvent}()}
#'
#' @return List of parsed junctions
#' @keywords internal
#'
#' @examples
#' junctions <- read.table(text = "41040823 41046768 41046903 41051785")
#' psichomics:::parseVastToolsSE(junctions)
#'
#' # these functions are vectorised!
#' junctions <- read.table(text = "41040823 41046768 41046903 41051785
#' 58864658 58864693 58864294 58864563")
#' psichomics:::parseVastToolsSE(junctions)
parseVastToolsSE <- function (junctions) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
# Strand is plus if the first junction is lower than the last junction
plus <- sapply(junctions[, 1], "[[", 1) < sapply(junctions[, 4], "[[", 1)
parsed[["Strand"]] <- ifelse(plus, "+", "-")
parsed[["C1.end"]] <- junctions[, 1]
parsed[["C2.start"]] <- junctions[, 4]
# Plus strand
parsed[plus, ][["A1.start"]] <- junctions[plus, 2]
parsed[plus, ][["A1.end"]] <- junctions[plus, 3]
# Minus strand
parsed[!plus, ][["A1.start"]] <- junctions[!plus, 3]
parsed[!plus, ][["A1.end"]] <- junctions[!plus, 2]
return(parsed)
}
#' @rdname parseVastToolsSE
#' @param strand Character: positive (+) or negative (-) strand
#'
#' @examples
#'
#' junctions <- read.table(text = "58864658 58864693 58864294 58864563")
#' psichomics:::parseVastToolsRI(junctions, strand = "+")
parseVastToolsRI <- function (junctions, strand) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
plus <- strand == "+"
parsed[["Strand"]] <- strand
# Plus strand
parsed[plus, ][["C1.start"]] <- junctions[plus, 1]
parsed[plus, ][["C1.end"]] <- junctions[plus, 2]
parsed[plus, ][["C2.start"]] <- junctions[plus, 3]
parsed[plus, ][["C2.end"]] <- junctions[plus, 4]
# Minus strand
parsed[!plus, ][["C1.start"]] <- junctions[!plus, 2]
parsed[!plus, ][["C1.end"]] <- junctions[!plus, 1]
parsed[!plus, ][["C2.start"]] <- junctions[!plus, 4]
parsed[!plus, ][["C2.end"]] <- junctions[!plus, 3]
return(parsed)
}
#' @rdname parseVastToolsSE
#'
#' @examples
#'
#' junctions <- rbind(
#' c(36276385, list(c(36277798, 36277315)), 36277974),
#' c(7133604, 7133377, list(c(7133474, 7133456)))
#' )
#' psichomics:::parseVastToolsA3SS(junctions)
parseVastToolsA3SS <- function (junctions) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
# Check if there aren't junctions missing
is2Available <- sapply(junctions[,2], length) > 0
is3Available <- sapply(junctions[,3], length) > 0
# Strand is plus if the first junction is lower than the other junctions
available <- ifelse(is3Available, junctions[, 3], junctions[, 2])
plus <- sapply(junctions[, 1], "[[", 1) < sapply(available, "[[", 1)
parsed[["Strand"]] <- ifelse(plus, "+", "-")
parsed[["C1.end"]] <- junctions[, 1]
# Plus strand
plus3 <- plus & is3Available
bigList <- sapply(junctions[, 2], length) > 2 # filter unrecognised events
parsed[plus & !bigList, ][c("A1.start", "A2.start")] <-
ldply(junctions[plus & !bigList, 2])
parsed[plus & bigList, ][["A2.start"]] <- junctions[plus & bigList, 2]
parsed[plus3, ][["A2.end"]] <- junctions[plus3, 3]
# Minus strand
minus2 <- !plus & is2Available
bigList <- sapply(junctions[, 3], length) > 2 # filter unrecognised events
parsed[!plus & !bigList, ][c("A1.start", "A2.start")] <-
ldply(junctions[!plus & !bigList, 3])
parsed[!plus & bigList, ][["A2.start"]] <- junctions[!plus & bigList, 3]
parsed[minus2, ][["A2.end"]] <- junctions[minus2, 2]
return(parsed)
}
#' @rdname parseVastToolsSE
#'
#' @examples
#'
#' junctions <- rbind(
#' c(74650610, list(c(74650654, 74650658)), 74650982),
#' c(list(c(49557666, 49557642), 49557746, 49557470))
#' )
#' psichomics:::parseVastToolsA5SS(junctions)
parseVastToolsA5SS <- function (junctions) {
# Creates a data frame of parsed junctions filled with NAs
parsed <- createJunctionsTemplate(nrow(junctions))
# Check if there aren't junctions missing
is1Available <- sapply(junctions[,1], length) > 0
is2Available <- sapply(junctions[,2], length) > 0
# Strand is plus if the first junction is lower than the other junctions
available <- ifelse(is2Available, junctions[, 2], junctions[, 1])
plus <- sapply(available, "[[", 1) < sapply(junctions[, 3], "[[", 1)
parsed[["Strand"]] <- ifelse(plus, "+", "-")
parsed[["C2.start"]] <- junctions[, 3]
# Plus strand
plus1 <- plus & is1Available
bigList <- sapply(junctions[, 2], length) > 2 # filter unrecognised events
parsed[plus1, ][["A2.start"]] <- junctions[plus1, 1]
parsed[plus & !bigList, ][c("A1.end", "A2.end")] <-
ldply(junctions[plus & !bigList, 2])
parsed[plus & bigList, ][["A2.end"]] <- junctions[plus & bigList, 2]
# Minus strand
minus2 <- !plus & is2Available
bigList <- sapply(junctions[, 1], length) > 2 # filter unrecognised events
parsed[minus2, ][["A2.start"]] <- junctions[minus2, 2]
parsed[!plus & !bigList, ][c("A1.end", "A2.end")] <-
ldply(junctions[!plus & !bigList, 1])
parsed[!plus & bigList, ][["A2.end"]] <- junctions[!plus & bigList, 1]
return(parsed)
}
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