R/compareTranscripts.R
In betsig/GeneStructureTools: Tools for spliced gene structure manipulation and analysis
Defines functions
orfSimilarity
attrChangeAltSpliced
featureTypes
compareContains
orfDiff
Documented in
attrChangeAltSpliced
compareContains
featureTypes
orfDiff
orfSimilarity
#' Evaluate changes to ORFs caused by alternative splicing
#' @param orfsX orf information for 'normal' transcripts. Generated by getOrfs()
#' @param orfsY orf information for 'alternative' transcripts. Generated by getOrfs()
#' @param filterNMD filter orf information for transcripts not targeted by nmd first?
#' @param geneSimilarity compare orf to all orfs in gene?
#' @param compareUTR compare UTRs?
#' @param compareBy compare by 'transcript' isoforms or by 'gene' groups
#' @param allORFs orf information for all transcripts for novel sequence comparisons.
#' Generated by getOrfs()
#' @param uniprotData data.frame of uniprot sequence information
#' @param uniprotSeqFeatures data.frame of uniprot sequecne features
#' @return data.frame with orf changes
#' @export
#' @import stringr
#' @importFrom rtracklayer import
#' @importFrom stats aggregate
#' @family transcript isoform comparisons
#' @author Beth Signal
#' @examples
#'
#' gtf <- rtracklayer::import(system.file("extdata", "gencode.vM25.small.gtf", package = "GeneStructureTools"))
#' exons <- gtf[gtf$type == "exon"]
#' g <- BSgenome.Mmusculus.UCSC.mm10::BSgenome.Mmusculus.UCSC.mm10
#'
#' whippetFiles <- system.file("extdata", "whippet_small/",
#' package = "GeneStructureTools"
#' )
#' wds <- readWhippetDataSet(whippetFiles)
#'
#' wds.exonSkip <- filterWhippetEvents(wds, eventTypes = "CE", psiDelta = 0.2)
#' exons.exonSkip <- findExonContainingTranscripts(wds.exonSkip, exons,
#' variableWidth = 0, findIntrons = FALSE
#' )
#' ExonSkippingTranscripts <- skipExonInTranscript(exons.exonSkip, exons, whippetDataSet = wds.exonSkip)
#'
#' orfsSkipped <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "skipped_exon"],
#' BSgenome = g
#' )
#' orfsIncluded <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "included_exon"],
#' BSgenome = g
#' )
#' orfDiff(orfsSkipped, orfsIncluded, filterNMD = FALSE)
#'
#' orfsProteinCoding <- getOrfs(exons[exons$gene_name == "Tmem208" &
#' exons$transcript_type == "protein_coding"], BSgenome = g)
#' orfsNMD <- getOrfs(exons[exons$gene_name == "Tmem208" &
#' exons$transcript_type == "nonsense_mediated_decay"], BSgenome = g)
#' orfDiff(orfsProteinCoding, orfsNMD, filterNMD = FALSE)
orfDiff <- function(orfsX,
orfsY,
filterNMD = TRUE,
geneSimilarity = TRUE,
compareUTR = TRUE,
compareBy = "gene",
allORFs = NULL,
uniprotData = NULL,
uniprotSeqFeatures = NULL) {
if (filterNMD == TRUE) {
orfChanges <- attrChangeAltSpliced(orfsX[which(orfsX$nmd_prob_manual < 0.5), ],
orfsY[which(orfsY$nmd_prob_manual < 0.5), ],
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
orfChanges.filterx <- attrChangeAltSpliced(
orfsX[which(orfsX$nmd_prob_manual < 0.5), ],
orfsY,
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
orfChanges.filtery <-
attrChangeAltSpliced(orfsX,
orfsY[which(orfsY$nmd_prob_manual < 0.5), ],
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
orfChanges.nofilter <-
attrChangeAltSpliced(orfsX,
orfsY,
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
if (nrow(orfChanges) > 0) {
orfChanges$filtered <- "both"
}
if (nrow(orfChanges.filterx) > 0) {
orfChanges.filterx$filtered <- "x"
}
if (nrow(orfChanges.filtery) > 0) {
orfChanges.filtery$filtered <- "y"
}
if (nrow(orfChanges.nofilter) > 0) {
orfChanges.nofilter$filtered <- "none"
}
add <- which(!(orfChanges.filterx$id %in% orfChanges$id))
orfChanges <- rbind(orfChanges, orfChanges.filterx[add, ])
add <- which(!(orfChanges.filtery$id %in% orfChanges$id))
orfChanges <- rbind(orfChanges, orfChanges.filtery[add, ])
add <- which(!(orfChanges.nofilter$id %in% orfChanges$id))
orfChanges <- rbind(orfChanges, orfChanges.nofilter[add, ])
} else {
orfChanges <- attrChangeAltSpliced(orfsX, orfsY,
attribute = "orf_length",
compareBy = compareBy, useMax = TRUE,
compareUTR = compareUTR
)
orfChanges$filtered <- FALSE
}
hasASidX <- grep("AS", orfsX$id)
hasLeafIdX <- grep("dnre_", orfsX$id)
orfsX$spliced_id <- orfsX$gene_id
orfsX$transcript_id <- orfsX$id
orfsX$spliced_id[hasASidX] <-
unlist(lapply(str_split(orfsX$id[hasASidX], " "), "[[", 2))
orfsX$transcript_id[hasASidX] <-
unlist(lapply(str_split(orfsX$id[hasASidX], "[+]"), "[[", 1))
orfsX$spliced_id[hasLeafIdX] <- gsub(
"dnre_", "",
orfsX$spliced_id[hasLeafIdX]
)
orfsX$spliced_id[hasLeafIdX] <-
stringr::str_sub(gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsX$spliced_id[hasLeafIdX]), ":")
), 1, -2)
hasASidY <- grep("AS", orfsY$id)
hasLeafIdY <- grep("upre_", orfsY$id)
orfsY$spliced_id <- orfsY$gene_id
orfsY$transcript_id <- orfsY$id
orfsY$spliced_id[hasASidY] <-
unlist(lapply(str_split(orfsY$id[hasASidY], " "), "[[", 2))
orfsY$transcript_id[hasASidY] <-
unlist(lapply(str_split(orfsY$id[hasASidY], "[+]"), "[[", 1))
orfsY$spliced_id[hasLeafIdY] <- gsub(
"upre_", "",
orfsY$spliced_id[hasLeafIdY]
)
orfsY$spliced_id[hasLeafIdY] <-
stringr::str_sub(gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsY$spliced_id[hasLeafIdY]), ":")
), 1, -2)
m <- match(
paste0(orfsX$spliced_id, "_", orfsX$frame),
paste0(orfsY$spliced_id, "_", orfsY$frame)
)
# check that there are matches if we ignore the frame (i.e 5'utr frame-shifts)
m.noFrame <- match(paste0(orfsX$spliced_id), paste0(orfsY$spliced_id))
m[which(is.na(m))] <- m.noFrame[which(is.na(m))]
if (any(is.na(m))) {
if (!(any(grepl("clu", orfsX$id)) | any(grepl("clu", orfsY$id)))) {
# hasASidX <- grep("[+]", orfsX$id)
if (length(hasASidX) > 0) {
m2 <- match(
paste0(
orfsX$transcript_id[hasASidX], "_",
orfsX$frame[hasASidX]
),
paste0(orfsY$transcript_id, "_", orfsY$frame)
)
orfsY2 <- orfsY[m2, ]
orfsY2$id <- orfsX$id[hasASidX]
orfsY2$spliced_id <- orfsX$spliced_id[hasASidX]
orfsY <- rbind(orfsY, orfsY2)
}
# hasASidY <- grep("[+]", orfsY$id)
if (length(hasASidY) > 0) {
m2 <- match(
paste0(
orfsY$transcript_id[hasASidY], "_",
orfsY$frame[hasASidY]
),
paste0(orfsX$transcript_id, "_", orfsX$frame)
)
orfsX2 <- orfsX[m2, ]
orfsX2$id <- orfsY$id[hasASidY]
orfsX2$spliced_id <- orfsY$spliced_id[hasASidY]
orfsX <- rbind(orfsX, orfsX2)
}
if (length(hasASidY) == 0 & length(hasASidX) == 0) {
attributeX$id <- attributeX$gene_id
attributeY$id <- attributeY$gene_id
} else {
m2 <- match(
paste0(orfsX$spliced_id, "_", orfsX$frame),
paste0(orfsY$spliced_id, "_", orfsY$frame)
)
orfsX <- orfsX[which(!is.na(m2)), ]
orfsY <- orfsY[m2[which(!is.na(m2))], ]
}
}
}
orfsY$id_with_len <- paste0(orfsY$spliced_id, "_", orfsY$orf_length)
orfChanges$id_orf_length_y <- paste0(
orfChanges$id, "_",
orfChanges$orf_length_y
)
my <- match(orfChanges$id_orf_length_y, orfsY$id_with_len)
orfsX$id_with_len <- paste0(orfsX$spliced_id, "_", orfsX$orf_length)
orfChanges$id_orf_length_x <- paste0(
orfChanges$id, "_",
orfChanges$orf_length_x
)
mx <- match(orfChanges$id_orf_length_x, orfsX$id_with_len)
x <- as.numeric(mapply(
function(x, y) orfSimilarity(x, y),
orfsX$orf_sequence[mx],
orfsY$orf_sequence[my]
))
orfChanges$percent_orf_shared <- x
maxLength <- apply(orfChanges[, c(
"orf_length_y",
"orf_length_x"
)], 1, max)
orfChanges$max_percent_orf_shared <-
(maxLength - abs(orfChanges$orf_length_x -
orfChanges$orf_length_y)) / maxLength
orfLengthShared <- orfChanges$percent_orf_shared * maxLength
orfChanges$orf_percent_kept_x <- orfLengthShared /
orfChanges$orf_length_x
orfChanges$orf_percent_kept_y <- orfLengthShared /
orfChanges$orf_length_y
if (geneSimilarity == TRUE & !is.null(allORFs)) {
orfChanges$gene_id <- orfsX$gene_id[match(
orfChanges$id,
orfsX$spliced_id
)]
keep.allORFs <- which(allORFs$gene_id %in% orfChanges$gene_id)
allORFs <- allORFs[keep.allORFs, ]
geneMatches <- lapply(
orfChanges$gene_id,
function(x) {
which(!is.na(match(allORFs$gene_id, x)))
}
)
idMatches <- unlist(mapply(
function(x, y) {
rep(x, length(y))
}, (seq_along(length(orfChanges$gene_id))),
geneMatches
))
geneMatches <- unlist(geneMatches)
idMatches.y <- match(
orfChanges$id_orf_length_y[idMatches],
orfsY$id_with_len
)
idMatches.x <- match(
orfChanges$id_orf_length_x[idMatches],
orfsX$id_with_len
)
orfSimBygene.y <- as.numeric(mapply(
function(x, y) orfSimilarity(x, y),
allORFs$orf_sequence[geneMatches],
orfsY$orf_sequence[idMatches.y]
))
orfSimBygene.x <- as.numeric(mapply(
function(x, y) orfSimilarity(x, y),
allORFs$orf_sequence[geneMatches],
orfsX$orf_sequence[idMatches.x]
))
orfSimilarity.bygene <-
data.frame(
gene_id = allORFs$gene_id[geneMatches],
spliced_id_x = orfsX$spliced_id[idMatches.x],
spliced_id_y = orfsY$spliced_id[idMatches.y],
similarity_x = orfSimBygene.x,
similarity_y = orfSimBygene.y,
length_gene = allORFs$orf_length[geneMatches],
length_x = orfsX$orf_length[idMatches.x],
length_y = orfsY$orf_length[idMatches.y]
)
orfSimilarity.bygeneAggX <- aggregate(
similarity_x ~ spliced_id_x,
orfSimilarity.bygene, max
)
orfSimilarity.bygeneAggY <- aggregate(
similarity_y ~ spliced_id_y,
orfSimilarity.bygene, max
)
orfChanges$gene_similarity_x <-
orfSimilarity.bygeneAggX$similarity_x[
match(orfChanges$id, orfSimilarity.bygeneAggX$spliced_id_x)
]
orfChanges$gene_similarity_y <-
orfSimilarity.bygeneAggY$similarity_y[
match(orfChanges$id, orfSimilarity.bygeneAggY$spliced_id_y)
]
}
if (!is.null(uniprotData) & !is.null(uniprotSeqFeatures)) {
# make subsets of uniprot data for faster processing
index <- uniprotData$ens_gene_id %in% c(
removeVersion(orfsX$gene_id[match(
paste0(
orfChanges$id, "_",
orfChanges$orf_length_x
),
orfsX$id_with_len
)]),
removeVersion(orfsY$gene_id[match(
paste0(
orfChanges$id, "_",
orfChanges$orf_length_y
),
orfsY$id_with_len
)])
)
seqFeats.sub <- uniprotSeqFeatures[uniprotSeqFeatures$prot_id %in%
uniprotData$id[index], ]
m <- match(seqFeats.sub$prot_id, uniprotData$id)
seqFeats.sub$gene_id <- uniprotData$ens_gene_id[m]
# find all features in the ORF sequences
orfsX2 <- orfsX[match(paste0(orfChanges$id, "_", orfChanges$orf_length_x), orfsX$id_with_len), ]
orfXContains <- apply(orfsX2[, c("orf_sequence", "gene_id")], 1, function(x) featureTypes(seqFeats.sub, x))
orfsY2 <- orfsY[match(paste0(orfChanges$id, "_", orfChanges$orf_length_y), orfsY$id_with_len), ]
orfYContains <- apply(orfsY2[, c("orf_sequence", "gene_id")], 1, function(x) featureTypes(seqFeats.sub, x))
contains <- data.frame(x = orfXContains, y = orfYContains)
# compare orfsX and orfsY
comp <- t(apply(contains, 1, compareContains))
orfChanges$domains_only_in_x <- comp[, 1]
orfChanges$domains_only_in_y <- comp[, 2]
}
orfChanges$transcript_id <- NULL
orfChanges$gene_id <- NULL
orfChanges$id_orf_length_x <- NULL
orfChanges$id_orf_length_y <- NULL
return(orfChanges)
}
#' compare two strings of concatenated sequence features
#' @param contains orf vector of two concatenated sequence features strings
#' @return data.frame with orf changes
#' @keywords internal
#' @import stringr
#' @author Beth Signal
compareContains <- function(contains) {
uX <- unique(unlist(stringr::str_split(contains[1], ";")))
uY <- unique(unlist(stringr::str_split(contains[2], ";")))
uXvals <- paste(uX[!uX %in% uY], collapse = ";")
uYvals <- paste(uY[!uY %in% uX], collapse = ";")
return(c(uXvals, uYvals))
}
#' Evaluate changes to ORFs caused by alternative splicing
#' @param seqFeatures data.frame of uniprot sequence features
#' @param orf vector with open reading frame (amino acid sequence) string and gene_id
#' @return data.frame with orf changes
#' @keywords internal
#' @author Beth Signal
featureTypes <- function(seqFeatures, orf) {
m <- which(seqFeatures$gene_id %in% removeVersion(orf[2]))
if (length(m) > 0) {
seqFeatures <- seqFeatures[m, ]
seqFeatures <- seqFeatures[!seqFeatures$feature_class %in%
c("MOD_RES", "CONFLICT", "VAR_SEQ", "VARIANT"), ]
features <- paste(apply(
seqFeatures[which(unlist(lapply(
seqFeatures$aa_seq, function(x) !grepl(x, orf[1], fixed = TRUE)
))), ],
1, function(x) paste0(x[3], ":", x[4], "-", x[5])
), collapse = ";")
features <- gsub(" *", "", features)
return(features)
} else {
return(NA)
}
}
#' Evaluate the change in an attribute between a set of 'normal' transcripts and
#' 'alternative' transcripts
#' @param orfsX orf information for 'normal' transcripts. Generated by getOrfs()
#' @param orfsY orf information for 'alternative' transcripts. Generated by getOrfs()
#' @param attribute attribute to compare
#' @param compareBy compare by 'transcript' isoforms or by 'gene' groups
#' @param useMax use max as the summary function when multiple isoforms are aggregated?
#' If FALSE, will use min instead.
#' @param compareUTR compare the UTR lengths between transcripts?
#' Only runs if attribute="orf_length"
#' @return data.frame with attribute changes
#' @export
#' @import stringr
#' @importFrom rtracklayer import
#' @importFrom stats aggregate
#' @family transcript isoform comparisons
#' @author Beth Signal
#' @examples
#' gtf <- rtracklayer::import(system.file("extdata", "gencode.vM25.small.gtf", package = "GeneStructureTools"))
#' exons <- gtf[gtf$type == "exon"]
#' g <- BSgenome.Mmusculus.UCSC.mm10::BSgenome.Mmusculus.UCSC.mm10
#'
#' whippetFiles <- system.file("extdata", "whippet_small/",
#' package = "GeneStructureTools"
#' )
#' wds <- readWhippetDataSet(whippetFiles)
#'
#' wds.exonSkip <- filterWhippetEvents(wds, eventTypes = "CE", psiDelta = 0.2)
#' exons.exonSkip <- findExonContainingTranscripts(wds.exonSkip, exons,
#' variableWidth = 0, findIntrons = FALSE
#' )
#' ExonSkippingTranscripts <- skipExonInTranscript(exons.exonSkip, exons, whippetDataSet = wds.exonSkip)
#'
#' orfsSkipped <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "skipped_exon"],
#' BSgenome = g
#' )
#' orfsIncluded <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "included_exon"],
#' BSgenome = g
#' )
#' attrChangeAltSpliced(orfsSkipped, orfsIncluded, attribute = "orf_length")
attrChangeAltSpliced <- function(orfsX,
orfsY,
attribute = "orf_length",
compareBy = "gene",
useMax = TRUE,
compareUTR = FALSE) {
if (nrow(orfsX) > 0 & nrow(orfsY) > 0) {
if (useMax) {
aggFun <- max
} else {
aggFun <- min
}
# fix ids so spliced isoforms have same id
if (all(grepl("[+]", c(orfsX$id, orfsY$id)))) {
asTypes <- unique(unlist(lapply(
stringr::str_split(
lapply(stringr::str_split(
c(orfsX$id, orfsY$id), "[+]"
), "[[", 2), " "
),
"[[", 1
)))
for (asT in asTypes) {
orfsX$id <- gsub(asT, "AS", orfsX$id)
orfsY$id <- gsub(asT, "AS", orfsY$id)
}
}
m <- match(c("id", "gene_id", attribute), colnames(orfsX))
orfsX.part <- orfsX[, m]
attributeX <- aggregate(. ~ id + gene_id, orfsX.part, aggFun)
hasASidX <- grep("AS", attributeX$id)
attributeX$as_group <- attributeX$gene_id
attributeX$transcript_id <- attributeX$id
hasLeafIdX <- grep("dnre_", attributeX$id)
attributeX$id[hasLeafIdX] <-
gsub("dnre_", "", attributeX$id[hasLeafIdX])
attributeX$id[hasLeafIdX] <- stringr::str_sub(gsub("\\-[^]]\\:*", ":", paste0(gsub("[+-][-]", "-", attributeX$id[hasLeafIdX]), ":")), 1, -2)
attributeX$as_group[hasASidX] <-
unlist(lapply(str_split(attributeX$id[hasASidX], " "), "[[", 2))
attributeX$transcript_id[hasASidX] <-
unlist(lapply(str_split(attributeX$id[hasASidX], "[+]"), "[[", 1))
m <- match(c("id", "gene_id", attribute), colnames(orfsY))
orfsY.part <- orfsY[, m]
attributeY <- aggregate(. ~ id + gene_id, orfsY.part, aggFun)
hasASidY <- grep("AS", attributeY$id)
attributeY$as_group <- attributeY$gene_id
attributeY$transcript_id <- attributeY$id
hasLeafIdY <- grep("upre_", attributeY$id)
attributeY$id[hasLeafIdY] <-
gsub("upre_", "", attributeY$id[hasLeafIdY])
attributeY$id[hasLeafIdY] <- stringr::str_sub(gsub("\\-[^]]\\:*", ":", paste0(gsub("[+-][-]", "-", attributeY$id[hasLeafIdY]), ":")), 1, -2)
attributeY$as_group[hasASidY] <-
unlist(lapply(str_split(attributeY$id[hasASidY], " "), "[[", 2))
attributeY$transcript_id[hasASidY] <-
unlist(lapply(str_split(attributeY$id[hasASidY], "[+]"), "[[", 1))
m <- match(attributeX$id, attributeY$id)
if (any(is.na(m))) {
# hasASidX <- grep("[+]", attributeX$id)
# if isoforms are not generated by leafcutter
if (!(any(grepl("clu", attributeX$id)) |
any(grepl("clu", attributeY$id)))) {
if (length(hasASidX) > 0) {
m2 <- match(
attributeX$transcript_id[hasASidX],
attributeY$transcript_id
)
attributeY2 <- attributeY[m2, ]
attributeY2$id <- attributeX$id[hasASidX]
attributeY2$as_group <- attributeX$as_group[hasASidX]
attributeY <- rbind(attributeY, attributeY2)
}
# hasASidY <- grep("[+]", attributeY$id)
if (length(hasASidY) > 0) {
m2 <- match(
attributeY$transcript_id[hasASidY],
attributeX$transcript_id
)
attributeX2 <- attributeX[m2, ]
attributeX2$id <- attributeY$id[hasASidY]
attributeX2$as_group <- attributeY$as_group[hasASidY]
attributeX <- rbind(attributeX, attributeX2)
}
if (length(hasASidY) == 0 & length(hasASidX) == 0) {
attributeX$id <- attributeX$gene_id
attributeY$id <- attributeY$gene_id
} else {
m2 <- match(attributeX$id, attributeY$id)
attributeX <- attributeX[which(!is.na(m2)), ]
attributeY <- attributeY[m2[which(!is.na(m2))], ]
m <- match(attributeX$id, attributeY$id)
}
}
}
colnames(attributeX)[3] <- "attr"
colnames(attributeY)[3] <- "attr"
if (compareBy == "transcript") {
m <- match(attributeX$id, attributeY$id)
attributeComparisons <-
data.frame(
id = attributeX$id,
attr_x = attributeX$attr,
attr_y = attributeY$attr[m]
)
m <- match(attributeY$id, attributeX$id)
attributeComparisonsY <-
data.frame(
id = attributeY$id,
attr_x = attributeX$attr[m],
attr_y = attributeY$attr
)
add <-
which(!(attributeComparisonsY$id %in% attributeComparisons$id))
if (length(add) > 0) {
attributeComparisons <-
rbind(attributeComparisons, attributeComparisonsY[add, ])
}
} else if (compareBy == "gene") {
attributeX2 <- aggregate(attr ~ as_group, attributeX, aggFun)
attributeY2 <- aggregate(attr ~ as_group, attributeY, aggFun)
m <- match(attributeX2$as_group, attributeY2$as_group)
attributeComparisons <- data.frame(
id = attributeX2[, 1],
attr_x = attributeX2[, -1],
attr_y = attributeY2[m, -1]
)
attributeComparisons <- attributeComparisons[which(!is.na(m)), ]
}
colnames(attributeComparisons) <- gsub(
"attr",
attribute,
colnames(attributeComparisons)
)
if (compareUTR == TRUE & attribute == "orf_length") {
if (nrow(attributeComparisons) > 0) {
if (all(grepl("AS", orfsX$id))) {
id.x <- paste0(
attributeComparisons$id, "_",
attributeComparisons$orf_length_x
)
hasLeafIdX <- grep("dnre_", orfsX$id)
orfsXid <- orfsX$id
orfsXid[hasLeafIdX] <-
stringr::str_sub(
gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsXid[hasLeafIdX]), ":")
),
1, -2
)
orfsXid[hasLeafIdX] <- gsub("dnre_", "", orfsXid[hasLeafIdX])
if (compareBy == "gene") {
orfsXid <- unlist(lapply(str_split(orfsXid, " "), "[[", 2))
m1 <- match(id.x, paste0(
orfsXid,
"_", orfsX$orf_length
))
} else {
m1 <- match(id.x, paste0(orfsXid, "_", orfsX$orf_length))
}
} else {
matchToGene <- match(
attributeComparisons$id,
attributeX$as_group
)
id.x <- paste0(
unlist(lapply(str_split(
attributeX$id[matchToGene], "[+]"
), "[[", 1)), "_",
attributeComparisons$orf_length_x
)
m1 <- match(id.x, paste0(
(orfsX$gene_id), "_",
orfsX$orf_length
))
}
if (all(grepl("AS", orfsY$id))) {
id.y <- paste0(
attributeComparisons$id, "_",
attributeComparisons$orf_length_y
)
hasLeafIdY <- grep("upre_", orfsY$id)
orfsYid <- orfsY$id
orfsYid[hasLeafIdY] <-
stringr::str_sub(
gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsYid[hasLeafIdY]), ":")
),
1, -2
)
orfsYid[hasLeafIdY] <- gsub("upre_", "", orfsYid[hasLeafIdY])
if (compareBy == "gene") {
orfsYid <- unlist(lapply(str_split(orfsYid, " "), "[[", 2))
m2 <- match(id.y, paste0(
orfsYid,
"_", orfsY$orf_length
))
} else {
m2 <- match(id.y, paste0(orfsYid, "_", orfsY$orf_length))
}
} else {
matchToGene <- match(
attributeComparisons$id,
attributeY$as_group
)
id.y <- paste0(
unlist(lapply(str_split(
attributeY$id[matchToGene], "[+]"
), "[[", 1)), "_",
attributeComparisons$orf_length_y
)
m2 <- match(id.y, paste0((orfsY$gene_id), "_", orfsY$orf_length))
}
attributeComparisons$utr3_length_x <- orfsX$utr3_length[m1]
attributeComparisons$utr3_length_y <- orfsY$utr3_length[m2]
attributeComparisons$utr5_length_x <-
orfsX$start_site_nt[m1]
attributeComparisons$utr5_length_y <-
orfsY$start_site_nt[m2]
} else {
attributeComparisons$utr3_length_x <- numeric(0)
attributeComparisons$utr3_length_y <- numeric(0)
attributeComparisons$utr5_length_x <- numeric(0)
attributeComparisons$utr5_length_y <- numeric(0)
}
}
return(attributeComparisons)
} else {
blank <- data.frame(
id = character(0),
attr_x = numeric(0),
attr_y = numeric(0)
)
colnames(blank) <- gsub("attr", attribute, colnames(blank))
if (compareUTR == TRUE) {
blank$utr3_length_x <- numeric(0)
blank$utr3_length_y <- numeric(0)
blank$utr5_length_x <- numeric(0)
blank$utr5_length_y <- numeric(0)
}
return(blank)
}
}
#' calculate percentage of orfB contained in orfA
#' @param orfA character string of ORF amino acid sequence
#' @param orfB character string of ORF amino acid sequence
#' @param substitutionCost cost for substitutions in ORF sequences.
#' Set to 1 if substitutions should be weighted equally to insertions and deletions.
#' @return percentage of orfB contained in orfA
#' @export
#' @import stringdist
#' @import stringr
#' @importFrom utils adist
#' @family ORF annotation
#' @author Beth Signal
#' @examples
#' orfSimilarity("MFGLDIYAGTRSSFRQFSLT", "MFGLDIYAGTRSSFRQFSLT")
#' orfSimilarity("MFGLDIYAGTRSSFRQFSLT", "MFGLDIYAFRQFSLT")
#' orfSimilarity("MFGLDIYAFRQFSLT", "MFGLDIYAGTRSSFRQFSLT")
#' orfSimilarity("MFGLDIYAGTRXXFRQFSLT", "MFGLDIYAGTRSSFRQFSLT")
#' orfSimilarity("MFGLDIYAGTRXXFSLT", "MFGLDIYAGTRSSFRQFSLT", 1)
orfSimilarity <- function(orfA, orfB, substitutionCost = 100) {
if (is.na(orfA) | is.na(orfB)) {
return(NA)
} else {
if (nchar(orfA) > nchar(orfB)) {
lcs <- utils::adist(orfA, orfB,
costs = list(
ins = 100,
del = 1,
sub = substitutionCost
)
)[1, 1]
} else if (nchar(orfA) == nchar(orfB)) {
lcs <- utils::adist(orfA, orfB,
costs = list(
ins = 1,
del = 1,
sub = substitutionCost
)
)[1, 1]
} else {
lcs <- utils::adist(orfA, orfB,
costs = list(
ins = 1,
del = 100,
sub = substitutionCost
)
)[1, 1]
}
if (lcs <= nchar(orfA) + nchar(orfB)) {
return(((nchar(orfA) + nchar(orfB) - lcs) / 2) /
max(nchar(orfA), nchar(orfB)))
} else {
return(0)
}
}
}
betsig/GeneStructureTools documentation built on March 31, 2021, 4:43 a.m.
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Defines functions orfSimilarity attrChangeAltSpliced featureTypes compareContains orfDiff
Documented in attrChangeAltSpliced compareContains featureTypes orfDiff orfSimilarity
#' Evaluate changes to ORFs caused by alternative splicing
#' @param orfsX orf information for 'normal' transcripts. Generated by getOrfs()
#' @param orfsY orf information for 'alternative' transcripts. Generated by getOrfs()
#' @param filterNMD filter orf information for transcripts not targeted by nmd first?
#' @param geneSimilarity compare orf to all orfs in gene?
#' @param compareUTR compare UTRs?
#' @param compareBy compare by 'transcript' isoforms or by 'gene' groups
#' @param allORFs orf information for all transcripts for novel sequence comparisons.
#' Generated by getOrfs()
#' @param uniprotData data.frame of uniprot sequence information
#' @param uniprotSeqFeatures data.frame of uniprot sequecne features
#' @return data.frame with orf changes
#' @export
#' @import stringr
#' @importFrom rtracklayer import
#' @importFrom stats aggregate
#' @family transcript isoform comparisons
#' @author Beth Signal
#' @examples
#'
#' gtf <- rtracklayer::import(system.file("extdata", "gencode.vM25.small.gtf", package = "GeneStructureTools"))
#' exons <- gtf[gtf$type == "exon"]
#' g <- BSgenome.Mmusculus.UCSC.mm10::BSgenome.Mmusculus.UCSC.mm10
#'
#' whippetFiles <- system.file("extdata", "whippet_small/",
#' package = "GeneStructureTools"
#' )
#' wds <- readWhippetDataSet(whippetFiles)
#'
#' wds.exonSkip <- filterWhippetEvents(wds, eventTypes = "CE", psiDelta = 0.2)
#' exons.exonSkip <- findExonContainingTranscripts(wds.exonSkip, exons,
#' variableWidth = 0, findIntrons = FALSE
#' )
#' ExonSkippingTranscripts <- skipExonInTranscript(exons.exonSkip, exons, whippetDataSet = wds.exonSkip)
#'
#' orfsSkipped <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "skipped_exon"],
#' BSgenome = g
#' )
#' orfsIncluded <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "included_exon"],
#' BSgenome = g
#' )
#' orfDiff(orfsSkipped, orfsIncluded, filterNMD = FALSE)
#'
#' orfsProteinCoding <- getOrfs(exons[exons$gene_name == "Tmem208" &
#' exons$transcript_type == "protein_coding"], BSgenome = g)
#' orfsNMD <- getOrfs(exons[exons$gene_name == "Tmem208" &
#' exons$transcript_type == "nonsense_mediated_decay"], BSgenome = g)
#' orfDiff(orfsProteinCoding, orfsNMD, filterNMD = FALSE)
orfDiff <- function(orfsX,
orfsY,
filterNMD = TRUE,
geneSimilarity = TRUE,
compareUTR = TRUE,
compareBy = "gene",
allORFs = NULL,
uniprotData = NULL,
uniprotSeqFeatures = NULL) {
if (filterNMD == TRUE) {
orfChanges <- attrChangeAltSpliced(orfsX[which(orfsX$nmd_prob_manual < 0.5), ],
orfsY[which(orfsY$nmd_prob_manual < 0.5), ],
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
orfChanges.filterx <- attrChangeAltSpliced(
orfsX[which(orfsX$nmd_prob_manual < 0.5), ],
orfsY,
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
orfChanges.filtery <-
attrChangeAltSpliced(orfsX,
orfsY[which(orfsY$nmd_prob_manual < 0.5), ],
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
orfChanges.nofilter <-
attrChangeAltSpliced(orfsX,
orfsY,
attribute = "orf_length",
compareBy = compareBy,
useMax = TRUE,
compareUTR = compareUTR
)
if (nrow(orfChanges) > 0) {
orfChanges$filtered <- "both"
}
if (nrow(orfChanges.filterx) > 0) {
orfChanges.filterx$filtered <- "x"
}
if (nrow(orfChanges.filtery) > 0) {
orfChanges.filtery$filtered <- "y"
}
if (nrow(orfChanges.nofilter) > 0) {
orfChanges.nofilter$filtered <- "none"
}
add <- which(!(orfChanges.filterx$id %in% orfChanges$id))
orfChanges <- rbind(orfChanges, orfChanges.filterx[add, ])
add <- which(!(orfChanges.filtery$id %in% orfChanges$id))
orfChanges <- rbind(orfChanges, orfChanges.filtery[add, ])
add <- which(!(orfChanges.nofilter$id %in% orfChanges$id))
orfChanges <- rbind(orfChanges, orfChanges.nofilter[add, ])
} else {
orfChanges <- attrChangeAltSpliced(orfsX, orfsY,
attribute = "orf_length",
compareBy = compareBy, useMax = TRUE,
compareUTR = compareUTR
)
orfChanges$filtered <- FALSE
}
hasASidX <- grep("AS", orfsX$id)
hasLeafIdX <- grep("dnre_", orfsX$id)
orfsX$spliced_id <- orfsX$gene_id
orfsX$transcript_id <- orfsX$id
orfsX$spliced_id[hasASidX] <-
unlist(lapply(str_split(orfsX$id[hasASidX], " "), "[[", 2))
orfsX$transcript_id[hasASidX] <-
unlist(lapply(str_split(orfsX$id[hasASidX], "[+]"), "[[", 1))
orfsX$spliced_id[hasLeafIdX] <- gsub(
"dnre_", "",
orfsX$spliced_id[hasLeafIdX]
)
orfsX$spliced_id[hasLeafIdX] <-
stringr::str_sub(gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsX$spliced_id[hasLeafIdX]), ":")
), 1, -2)
hasASidY <- grep("AS", orfsY$id)
hasLeafIdY <- grep("upre_", orfsY$id)
orfsY$spliced_id <- orfsY$gene_id
orfsY$transcript_id <- orfsY$id
orfsY$spliced_id[hasASidY] <-
unlist(lapply(str_split(orfsY$id[hasASidY], " "), "[[", 2))
orfsY$transcript_id[hasASidY] <-
unlist(lapply(str_split(orfsY$id[hasASidY], "[+]"), "[[", 1))
orfsY$spliced_id[hasLeafIdY] <- gsub(
"upre_", "",
orfsY$spliced_id[hasLeafIdY]
)
orfsY$spliced_id[hasLeafIdY] <-
stringr::str_sub(gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsY$spliced_id[hasLeafIdY]), ":")
), 1, -2)
m <- match(
paste0(orfsX$spliced_id, "_", orfsX$frame),
paste0(orfsY$spliced_id, "_", orfsY$frame)
)
# check that there are matches if we ignore the frame (i.e 5'utr frame-shifts)
m.noFrame <- match(paste0(orfsX$spliced_id), paste0(orfsY$spliced_id))
m[which(is.na(m))] <- m.noFrame[which(is.na(m))]
if (any(is.na(m))) {
if (!(any(grepl("clu", orfsX$id)) | any(grepl("clu", orfsY$id)))) {
# hasASidX <- grep("[+]", orfsX$id)
if (length(hasASidX) > 0) {
m2 <- match(
paste0(
orfsX$transcript_id[hasASidX], "_",
orfsX$frame[hasASidX]
),
paste0(orfsY$transcript_id, "_", orfsY$frame)
)
orfsY2 <- orfsY[m2, ]
orfsY2$id <- orfsX$id[hasASidX]
orfsY2$spliced_id <- orfsX$spliced_id[hasASidX]
orfsY <- rbind(orfsY, orfsY2)
}
# hasASidY <- grep("[+]", orfsY$id)
if (length(hasASidY) > 0) {
m2 <- match(
paste0(
orfsY$transcript_id[hasASidY], "_",
orfsY$frame[hasASidY]
),
paste0(orfsX$transcript_id, "_", orfsX$frame)
)
orfsX2 <- orfsX[m2, ]
orfsX2$id <- orfsY$id[hasASidY]
orfsX2$spliced_id <- orfsY$spliced_id[hasASidY]
orfsX <- rbind(orfsX, orfsX2)
}
if (length(hasASidY) == 0 & length(hasASidX) == 0) {
attributeX$id <- attributeX$gene_id
attributeY$id <- attributeY$gene_id
} else {
m2 <- match(
paste0(orfsX$spliced_id, "_", orfsX$frame),
paste0(orfsY$spliced_id, "_", orfsY$frame)
)
orfsX <- orfsX[which(!is.na(m2)), ]
orfsY <- orfsY[m2[which(!is.na(m2))], ]
}
}
}
orfsY$id_with_len <- paste0(orfsY$spliced_id, "_", orfsY$orf_length)
orfChanges$id_orf_length_y <- paste0(
orfChanges$id, "_",
orfChanges$orf_length_y
)
my <- match(orfChanges$id_orf_length_y, orfsY$id_with_len)
orfsX$id_with_len <- paste0(orfsX$spliced_id, "_", orfsX$orf_length)
orfChanges$id_orf_length_x <- paste0(
orfChanges$id, "_",
orfChanges$orf_length_x
)
mx <- match(orfChanges$id_orf_length_x, orfsX$id_with_len)
x <- as.numeric(mapply(
function(x, y) orfSimilarity(x, y),
orfsX$orf_sequence[mx],
orfsY$orf_sequence[my]
))
orfChanges$percent_orf_shared <- x
maxLength <- apply(orfChanges[, c(
"orf_length_y",
"orf_length_x"
)], 1, max)
orfChanges$max_percent_orf_shared <-
(maxLength - abs(orfChanges$orf_length_x -
orfChanges$orf_length_y)) / maxLength
orfLengthShared <- orfChanges$percent_orf_shared * maxLength
orfChanges$orf_percent_kept_x <- orfLengthShared /
orfChanges$orf_length_x
orfChanges$orf_percent_kept_y <- orfLengthShared /
orfChanges$orf_length_y
if (geneSimilarity == TRUE & !is.null(allORFs)) {
orfChanges$gene_id <- orfsX$gene_id[match(
orfChanges$id,
orfsX$spliced_id
)]
keep.allORFs <- which(allORFs$gene_id %in% orfChanges$gene_id)
allORFs <- allORFs[keep.allORFs, ]
geneMatches <- lapply(
orfChanges$gene_id,
function(x) {
which(!is.na(match(allORFs$gene_id, x)))
}
)
idMatches <- unlist(mapply(
function(x, y) {
rep(x, length(y))
}, (seq_along(length(orfChanges$gene_id))),
geneMatches
))
geneMatches <- unlist(geneMatches)
idMatches.y <- match(
orfChanges$id_orf_length_y[idMatches],
orfsY$id_with_len
)
idMatches.x <- match(
orfChanges$id_orf_length_x[idMatches],
orfsX$id_with_len
)
orfSimBygene.y <- as.numeric(mapply(
function(x, y) orfSimilarity(x, y),
allORFs$orf_sequence[geneMatches],
orfsY$orf_sequence[idMatches.y]
))
orfSimBygene.x <- as.numeric(mapply(
function(x, y) orfSimilarity(x, y),
allORFs$orf_sequence[geneMatches],
orfsX$orf_sequence[idMatches.x]
))
orfSimilarity.bygene <-
data.frame(
gene_id = allORFs$gene_id[geneMatches],
spliced_id_x = orfsX$spliced_id[idMatches.x],
spliced_id_y = orfsY$spliced_id[idMatches.y],
similarity_x = orfSimBygene.x,
similarity_y = orfSimBygene.y,
length_gene = allORFs$orf_length[geneMatches],
length_x = orfsX$orf_length[idMatches.x],
length_y = orfsY$orf_length[idMatches.y]
)
orfSimilarity.bygeneAggX <- aggregate(
similarity_x ~ spliced_id_x,
orfSimilarity.bygene, max
)
orfSimilarity.bygeneAggY <- aggregate(
similarity_y ~ spliced_id_y,
orfSimilarity.bygene, max
)
orfChanges$gene_similarity_x <-
orfSimilarity.bygeneAggX$similarity_x[
match(orfChanges$id, orfSimilarity.bygeneAggX$spliced_id_x)
]
orfChanges$gene_similarity_y <-
orfSimilarity.bygeneAggY$similarity_y[
match(orfChanges$id, orfSimilarity.bygeneAggY$spliced_id_y)
]
}
if (!is.null(uniprotData) & !is.null(uniprotSeqFeatures)) {
# make subsets of uniprot data for faster processing
index <- uniprotData$ens_gene_id %in% c(
removeVersion(orfsX$gene_id[match(
paste0(
orfChanges$id, "_",
orfChanges$orf_length_x
),
orfsX$id_with_len
)]),
removeVersion(orfsY$gene_id[match(
paste0(
orfChanges$id, "_",
orfChanges$orf_length_y
),
orfsY$id_with_len
)])
)
seqFeats.sub <- uniprotSeqFeatures[uniprotSeqFeatures$prot_id %in%
uniprotData$id[index], ]
m <- match(seqFeats.sub$prot_id, uniprotData$id)
seqFeats.sub$gene_id <- uniprotData$ens_gene_id[m]
# find all features in the ORF sequences
orfsX2 <- orfsX[match(paste0(orfChanges$id, "_", orfChanges$orf_length_x), orfsX$id_with_len), ]
orfXContains <- apply(orfsX2[, c("orf_sequence", "gene_id")], 1, function(x) featureTypes(seqFeats.sub, x))
orfsY2 <- orfsY[match(paste0(orfChanges$id, "_", orfChanges$orf_length_y), orfsY$id_with_len), ]
orfYContains <- apply(orfsY2[, c("orf_sequence", "gene_id")], 1, function(x) featureTypes(seqFeats.sub, x))
contains <- data.frame(x = orfXContains, y = orfYContains)
# compare orfsX and orfsY
comp <- t(apply(contains, 1, compareContains))
orfChanges$domains_only_in_x <- comp[, 1]
orfChanges$domains_only_in_y <- comp[, 2]
}
orfChanges$transcript_id <- NULL
orfChanges$gene_id <- NULL
orfChanges$id_orf_length_x <- NULL
orfChanges$id_orf_length_y <- NULL
return(orfChanges)
}
#' compare two strings of concatenated sequence features
#' @param contains orf vector of two concatenated sequence features strings
#' @return data.frame with orf changes
#' @keywords internal
#' @import stringr
#' @author Beth Signal
compareContains <- function(contains) {
uX <- unique(unlist(stringr::str_split(contains[1], ";")))
uY <- unique(unlist(stringr::str_split(contains[2], ";")))
uXvals <- paste(uX[!uX %in% uY], collapse = ";")
uYvals <- paste(uY[!uY %in% uX], collapse = ";")
return(c(uXvals, uYvals))
}
#' Evaluate changes to ORFs caused by alternative splicing
#' @param seqFeatures data.frame of uniprot sequence features
#' @param orf vector with open reading frame (amino acid sequence) string and gene_id
#' @return data.frame with orf changes
#' @keywords internal
#' @author Beth Signal
featureTypes <- function(seqFeatures, orf) {
m <- which(seqFeatures$gene_id %in% removeVersion(orf[2]))
if (length(m) > 0) {
seqFeatures <- seqFeatures[m, ]
seqFeatures <- seqFeatures[!seqFeatures$feature_class %in%
c("MOD_RES", "CONFLICT", "VAR_SEQ", "VARIANT"), ]
features <- paste(apply(
seqFeatures[which(unlist(lapply(
seqFeatures$aa_seq, function(x) !grepl(x, orf[1], fixed = TRUE)
))), ],
1, function(x) paste0(x[3], ":", x[4], "-", x[5])
), collapse = ";")
features <- gsub(" *", "", features)
return(features)
} else {
return(NA)
}
}
#' Evaluate the change in an attribute between a set of 'normal' transcripts and
#' 'alternative' transcripts
#' @param orfsX orf information for 'normal' transcripts. Generated by getOrfs()
#' @param orfsY orf information for 'alternative' transcripts. Generated by getOrfs()
#' @param attribute attribute to compare
#' @param compareBy compare by 'transcript' isoforms or by 'gene' groups
#' @param useMax use max as the summary function when multiple isoforms are aggregated?
#' If FALSE, will use min instead.
#' @param compareUTR compare the UTR lengths between transcripts?
#' Only runs if attribute="orf_length"
#' @return data.frame with attribute changes
#' @export
#' @import stringr
#' @importFrom rtracklayer import
#' @importFrom stats aggregate
#' @family transcript isoform comparisons
#' @author Beth Signal
#' @examples
#' gtf <- rtracklayer::import(system.file("extdata", "gencode.vM25.small.gtf", package = "GeneStructureTools"))
#' exons <- gtf[gtf$type == "exon"]
#' g <- BSgenome.Mmusculus.UCSC.mm10::BSgenome.Mmusculus.UCSC.mm10
#'
#' whippetFiles <- system.file("extdata", "whippet_small/",
#' package = "GeneStructureTools"
#' )
#' wds <- readWhippetDataSet(whippetFiles)
#'
#' wds.exonSkip <- filterWhippetEvents(wds, eventTypes = "CE", psiDelta = 0.2)
#' exons.exonSkip <- findExonContainingTranscripts(wds.exonSkip, exons,
#' variableWidth = 0, findIntrons = FALSE
#' )
#' ExonSkippingTranscripts <- skipExonInTranscript(exons.exonSkip, exons, whippetDataSet = wds.exonSkip)
#'
#' orfsSkipped <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "skipped_exon"],
#' BSgenome = g
#' )
#' orfsIncluded <- getOrfs(ExonSkippingTranscripts[ExonSkippingTranscripts$set == "included_exon"],
#' BSgenome = g
#' )
#' attrChangeAltSpliced(orfsSkipped, orfsIncluded, attribute = "orf_length")
attrChangeAltSpliced <- function(orfsX,
orfsY,
attribute = "orf_length",
compareBy = "gene",
useMax = TRUE,
compareUTR = FALSE) {
if (nrow(orfsX) > 0 & nrow(orfsY) > 0) {
if (useMax) {
aggFun <- max
} else {
aggFun <- min
}
# fix ids so spliced isoforms have same id
if (all(grepl("[+]", c(orfsX$id, orfsY$id)))) {
asTypes <- unique(unlist(lapply(
stringr::str_split(
lapply(stringr::str_split(
c(orfsX$id, orfsY$id), "[+]"
), "[[", 2), " "
),
"[[", 1
)))
for (asT in asTypes) {
orfsX$id <- gsub(asT, "AS", orfsX$id)
orfsY$id <- gsub(asT, "AS", orfsY$id)
}
}
m <- match(c("id", "gene_id", attribute), colnames(orfsX))
orfsX.part <- orfsX[, m]
attributeX <- aggregate(. ~ id + gene_id, orfsX.part, aggFun)
hasASidX <- grep("AS", attributeX$id)
attributeX$as_group <- attributeX$gene_id
attributeX$transcript_id <- attributeX$id
hasLeafIdX <- grep("dnre_", attributeX$id)
attributeX$id[hasLeafIdX] <-
gsub("dnre_", "", attributeX$id[hasLeafIdX])
attributeX$id[hasLeafIdX] <- stringr::str_sub(gsub("\\-[^]]\\:*", ":", paste0(gsub("[+-][-]", "-", attributeX$id[hasLeafIdX]), ":")), 1, -2)
attributeX$as_group[hasASidX] <-
unlist(lapply(str_split(attributeX$id[hasASidX], " "), "[[", 2))
attributeX$transcript_id[hasASidX] <-
unlist(lapply(str_split(attributeX$id[hasASidX], "[+]"), "[[", 1))
m <- match(c("id", "gene_id", attribute), colnames(orfsY))
orfsY.part <- orfsY[, m]
attributeY <- aggregate(. ~ id + gene_id, orfsY.part, aggFun)
hasASidY <- grep("AS", attributeY$id)
attributeY$as_group <- attributeY$gene_id
attributeY$transcript_id <- attributeY$id
hasLeafIdY <- grep("upre_", attributeY$id)
attributeY$id[hasLeafIdY] <-
gsub("upre_", "", attributeY$id[hasLeafIdY])
attributeY$id[hasLeafIdY] <- stringr::str_sub(gsub("\\-[^]]\\:*", ":", paste0(gsub("[+-][-]", "-", attributeY$id[hasLeafIdY]), ":")), 1, -2)
attributeY$as_group[hasASidY] <-
unlist(lapply(str_split(attributeY$id[hasASidY], " "), "[[", 2))
attributeY$transcript_id[hasASidY] <-
unlist(lapply(str_split(attributeY$id[hasASidY], "[+]"), "[[", 1))
m <- match(attributeX$id, attributeY$id)
if (any(is.na(m))) {
# hasASidX <- grep("[+]", attributeX$id)
# if isoforms are not generated by leafcutter
if (!(any(grepl("clu", attributeX$id)) |
any(grepl("clu", attributeY$id)))) {
if (length(hasASidX) > 0) {
m2 <- match(
attributeX$transcript_id[hasASidX],
attributeY$transcript_id
)
attributeY2 <- attributeY[m2, ]
attributeY2$id <- attributeX$id[hasASidX]
attributeY2$as_group <- attributeX$as_group[hasASidX]
attributeY <- rbind(attributeY, attributeY2)
}
# hasASidY <- grep("[+]", attributeY$id)
if (length(hasASidY) > 0) {
m2 <- match(
attributeY$transcript_id[hasASidY],
attributeX$transcript_id
)
attributeX2 <- attributeX[m2, ]
attributeX2$id <- attributeY$id[hasASidY]
attributeX2$as_group <- attributeY$as_group[hasASidY]
attributeX <- rbind(attributeX, attributeX2)
}
if (length(hasASidY) == 0 & length(hasASidX) == 0) {
attributeX$id <- attributeX$gene_id
attributeY$id <- attributeY$gene_id
} else {
m2 <- match(attributeX$id, attributeY$id)
attributeX <- attributeX[which(!is.na(m2)), ]
attributeY <- attributeY[m2[which(!is.na(m2))], ]
m <- match(attributeX$id, attributeY$id)
}
}
}
colnames(attributeX)[3] <- "attr"
colnames(attributeY)[3] <- "attr"
if (compareBy == "transcript") {
m <- match(attributeX$id, attributeY$id)
attributeComparisons <-
data.frame(
id = attributeX$id,
attr_x = attributeX$attr,
attr_y = attributeY$attr[m]
)
m <- match(attributeY$id, attributeX$id)
attributeComparisonsY <-
data.frame(
id = attributeY$id,
attr_x = attributeX$attr[m],
attr_y = attributeY$attr
)
add <-
which(!(attributeComparisonsY$id %in% attributeComparisons$id))
if (length(add) > 0) {
attributeComparisons <-
rbind(attributeComparisons, attributeComparisonsY[add, ])
}
} else if (compareBy == "gene") {
attributeX2 <- aggregate(attr ~ as_group, attributeX, aggFun)
attributeY2 <- aggregate(attr ~ as_group, attributeY, aggFun)
m <- match(attributeX2$as_group, attributeY2$as_group)
attributeComparisons <- data.frame(
id = attributeX2[, 1],
attr_x = attributeX2[, -1],
attr_y = attributeY2[m, -1]
)
attributeComparisons <- attributeComparisons[which(!is.na(m)), ]
}
colnames(attributeComparisons) <- gsub(
"attr",
attribute,
colnames(attributeComparisons)
)
if (compareUTR == TRUE & attribute == "orf_length") {
if (nrow(attributeComparisons) > 0) {
if (all(grepl("AS", orfsX$id))) {
id.x <- paste0(
attributeComparisons$id, "_",
attributeComparisons$orf_length_x
)
hasLeafIdX <- grep("dnre_", orfsX$id)
orfsXid <- orfsX$id
orfsXid[hasLeafIdX] <-
stringr::str_sub(
gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsXid[hasLeafIdX]), ":")
),
1, -2
)
orfsXid[hasLeafIdX] <- gsub("dnre_", "", orfsXid[hasLeafIdX])
if (compareBy == "gene") {
orfsXid <- unlist(lapply(str_split(orfsXid, " "), "[[", 2))
m1 <- match(id.x, paste0(
orfsXid,
"_", orfsX$orf_length
))
} else {
m1 <- match(id.x, paste0(orfsXid, "_", orfsX$orf_length))
}
} else {
matchToGene <- match(
attributeComparisons$id,
attributeX$as_group
)
id.x <- paste0(
unlist(lapply(str_split(
attributeX$id[matchToGene], "[+]"
), "[[", 1)), "_",
attributeComparisons$orf_length_x
)
m1 <- match(id.x, paste0(
(orfsX$gene_id), "_",
orfsX$orf_length
))
}
if (all(grepl("AS", orfsY$id))) {
id.y <- paste0(
attributeComparisons$id, "_",
attributeComparisons$orf_length_y
)
hasLeafIdY <- grep("upre_", orfsY$id)
orfsYid <- orfsY$id
orfsYid[hasLeafIdY] <-
stringr::str_sub(
gsub(
"\\-[^]]\\:*", ":",
paste0(gsub("[+-][-]", "-", orfsYid[hasLeafIdY]), ":")
),
1, -2
)
orfsYid[hasLeafIdY] <- gsub("upre_", "", orfsYid[hasLeafIdY])
if (compareBy == "gene") {
orfsYid <- unlist(lapply(str_split(orfsYid, " "), "[[", 2))
m2 <- match(id.y, paste0(
orfsYid,
"_", orfsY$orf_length
))
} else {
m2 <- match(id.y, paste0(orfsYid, "_", orfsY$orf_length))
}
} else {
matchToGene <- match(
attributeComparisons$id,
attributeY$as_group
)
id.y <- paste0(
unlist(lapply(str_split(
attributeY$id[matchToGene], "[+]"
), "[[", 1)), "_",
attributeComparisons$orf_length_y
)
m2 <- match(id.y, paste0((orfsY$gene_id), "_", orfsY$orf_length))
}
attributeComparisons$utr3_length_x <- orfsX$utr3_length[m1]
attributeComparisons$utr3_length_y <- orfsY$utr3_length[m2]
attributeComparisons$utr5_length_x <-
orfsX$start_site_nt[m1]
attributeComparisons$utr5_length_y <-
orfsY$start_site_nt[m2]
} else {
attributeComparisons$utr3_length_x <- numeric(0)
attributeComparisons$utr3_length_y <- numeric(0)
attributeComparisons$utr5_length_x <- numeric(0)
attributeComparisons$utr5_length_y <- numeric(0)
}
}
return(attributeComparisons)
} else {
blank <- data.frame(
id = character(0),
attr_x = numeric(0),
attr_y = numeric(0)
)
colnames(blank) <- gsub("attr", attribute, colnames(blank))
if (compareUTR == TRUE) {
blank$utr3_length_x <- numeric(0)
blank$utr3_length_y <- numeric(0)
blank$utr5_length_x <- numeric(0)
blank$utr5_length_y <- numeric(0)
}
return(blank)
}
}
#' calculate percentage of orfB contained in orfA
#' @param orfA character string of ORF amino acid sequence
#' @param orfB character string of ORF amino acid sequence
#' @param substitutionCost cost for substitutions in ORF sequences.
#' Set to 1 if substitutions should be weighted equally to insertions and deletions.
#' @return percentage of orfB contained in orfA
#' @export
#' @import stringdist
#' @import stringr
#' @importFrom utils adist
#' @family ORF annotation
#' @author Beth Signal
#' @examples
#' orfSimilarity("MFGLDIYAGTRSSFRQFSLT", "MFGLDIYAGTRSSFRQFSLT")
#' orfSimilarity("MFGLDIYAGTRSSFRQFSLT", "MFGLDIYAFRQFSLT")
#' orfSimilarity("MFGLDIYAFRQFSLT", "MFGLDIYAGTRSSFRQFSLT")
#' orfSimilarity("MFGLDIYAGTRXXFRQFSLT", "MFGLDIYAGTRSSFRQFSLT")
#' orfSimilarity("MFGLDIYAGTRXXFSLT", "MFGLDIYAGTRSSFRQFSLT", 1)
orfSimilarity <- function(orfA, orfB, substitutionCost = 100) {
if (is.na(orfA) | is.na(orfB)) {
return(NA)
} else {
if (nchar(orfA) > nchar(orfB)) {
lcs <- utils::adist(orfA, orfB,
costs = list(
ins = 100,
del = 1,
sub = substitutionCost
)
)[1, 1]
} else if (nchar(orfA) == nchar(orfB)) {
lcs <- utils::adist(orfA, orfB,
costs = list(
ins = 1,
del = 1,
sub = substitutionCost
)
)[1, 1]
} else {
lcs <- utils::adist(orfA, orfB,
costs = list(
ins = 1,
del = 100,
sub = substitutionCost
)
)[1, 1]
}
if (lcs <= nchar(orfA) + nchar(orfB)) {
return(((nchar(orfA) + nchar(orfB) - lcs) / 2) /
max(nchar(orfA), nchar(orfB)))
} else {
return(0)
}
}
}
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