Nothing
R/referencePrepare.R
In IntEREst: Intron-Exon Retention Estimator
Defines functions
referencePrepare
Documented in
referencePrepare
referencePrepare <-
function( outFileTranscriptsAnnotation="",
annotateGeneIds=TRUE,
u12IntronsChr=c(), u12IntronsBeg=c(), u12IntronsEnd=c(),
u12IntronsRef,
collapseExons=TRUE, sourceBuild="UCSC", ucscGenome="hg19",
ucscTableName="knownGene",
ucscUrl="http://genome-euro.ucsc.edu/cgi-bin/",
biomart="ENSEMBL_MART_ENSEMBL",
biomartDataset="hsapiens_gene_ensembl",
biomartTranscriptIds=NULL, biomartExtraFilters=NULL,
biomartIdPrefix="ensembl_", biomartHost="www.ensembl.org",
biomartPort=80, circSeqs="", miRBaseBuild=NA, taxonomyId=NA,
filePath="", fileFormat=c("auto", "gff3", "gtf"), fileDatSrc=NA,
fileOrganism=NA, fileChrInf=NULL,
fileDbXrefTag=c(), addCollapsedTranscripts=TRUE,
ignore.strand=FALSE)
{
if(circSeqs[1]=="")
circSeqs<- NULL
# circSeqs=GenomicFeatures::DEFAULT_CIRC_SEQS
if(sourceBuild=="UCSC"){
human.txdb <- GenomicFeatures::makeTxDbFromUCSC(genome=ucscGenome,
tablename=ucscTableName, circ_seqs=circSeqs, url=ucscUrl,
taxonomyId=taxonomyId)
} else if (sourceBuild=="biomaRt"){
human.txdb=GenomicFeatures::makeTxDbFromBiomart(biomart=biomart,
dataset=biomartDataset,
transcript_ids=biomartTranscriptIds,
circ_seqs=circSeqs,
filter=biomartExtraFilters,
id_prefix=biomartIdPrefix,
host=biomartHost,
port=biomartPort,
miRBaseBuild=miRBaseBuild,
taxonomyId=taxonomyId)
}else if (sourceBuild=="file"){
if(length(fileDbXrefTag)==0){
human.txdb=GenomicFeatures::makeTxDbFromGFF(file=filePath,
format=fileFormat,
dataSource=fileDatSrc, organism=fileOrganism,
taxonomyId=taxonomyId,
circ_seqs=circSeqs, chrominfo=fileChrInf,
miRBaseBuild=miRBaseBuild)
} else {
human.txdb=GenomicFeatures::makeTxDbFromGFF(file=filePath,
format=fileFormat,
dataSource=fileDatSrc, organism=fileOrganism,
taxonomyId=taxonomyId,
circ_seqs=circSeqs, chrominfo=fileChrInf,
miRBaseBuild=miRBaseBuild, dbxrefTag=fileDbXrefTag)
}
}
exons<- GenomicFeatures::exonsBy(human.txdb, by="tx", use.names=TRUE)
namesExons=names(exons)
time1=Sys.time()
exonsGR=GenomicRanges::GRanges(
seqnames=as.character(GenomicRanges::seqnames(unlist(exons))),
IRanges::IRanges(
start=as.numeric(GenomicRanges::start(unlist(exons))) ,
end=as.numeric(GenomicRanges::end(unlist(exons))) ))
if(!ignore.strand){
strandsEx=as.character(GenomicRanges::strand(unlist(exons)))
}
if (collapseExons){
genMat=matrix(as.vector(unlist(sapply(exons,function(tmp)
return( c((as.character(GenomicRanges::seqnames(tmp)))[1],
as.numeric(GenomicRanges::start(tmp))[1],
as.numeric(GenomicRanges::width(tmp))[1],
utils::tail(as.numeric(GenomicRanges::start(tmp)),n=1),
utils::tail(as.numeric(GenomicRanges::width(tmp)),n=1),
as.character(GenomicRanges::strand(tmp))[1] ))))),
byrow=TRUE, ncol=6)
genBegs= as.numeric(as.numeric(genMat[,2]))
genBegs[genMat[,6]=="-"]=
as.numeric(as.numeric(genMat[genMat[,6]=="-",4]))
genEnds= (as.numeric(genMat[,4])+as.numeric(genMat[,5])-1)
genEnds[genMat[,6]=="-"]= as.numeric(genMat[genMat[,6]=="-",2])+
as.numeric(genMat[genMat[,6]=="-",3])-1
genGr=GenomicRanges::GRanges( seqnames=genMat[,1],
IRanges::IRanges(start=genBegs , end=genEnds ))
reduceExGr=GenomicRanges::reduce(exonsGR)
intronsGr=GenomicRanges::gaps(reduceExGr)
reduceGenGr=GenomicRanges::reduce(genGr)
hitsEx= GenomicRanges::findOverlaps(reduceExGr, reduceGenGr,
type="any")
hitsInt= GenomicRanges::findOverlaps(intronsGr, reduceGenGr,
type="any")
genesExMap=tapply(S4Vectors::queryHits(hitsEx),
S4Vectors::subjectHits(hitsEx), unique)
genesIntMap=tapply(S4Vectors::queryHits(hitsInt),
S4Vectors::subjectHits(hitsInt), unique)
lenGenesExMap=sapply(genesExMap,length)
multiEx=names(genesExMap[lenGenesExMap>1])
singleEx=names(genesExMap[lenGenesExMap==1])
allEx=names(genesExMap)
matOutVecTmp=lapply(allEx, function(tmp){
genExUnl=unlist(genesExMap[tmp])
genIntUnl=unlist(genesIntMap[tmp])
if(length(genIntUnl)>0){
res=as.vector(c(
as.character(GenomicRanges::seqnames(reduceExGr)[
genExUnl]),
as.character(GenomicRanges::seqnames(intronsGr)[
genIntUnl]),
as.numeric(GenomicRanges::start(reduceExGr))[genExUnl],
as.numeric(GenomicRanges::start(intronsGr))[genIntUnl],
as.numeric(GenomicRanges::end(reduceExGr))[genExUnl],
as.numeric(GenomicRanges::end(intronsGr))[genIntUnl],
as.character(GenomicRanges::strand(reduceExGr))[genExUnl],
as.character(GenomicRanges::strand(intronsGr))[genIntUnl],
rep("exon",length(genExUnl)),
rep("intron",length(genIntUnl)),
seq(from=1, by=2, length.out=length(genExUnl)),
seq(from=2, by=2, length.out=length(genIntUnl)),
rep(tmp,length(genIntUnl)+ length(genExUnl))))
} else {
res= as.vector(c(
as.character(GenomicRanges::seqnames(reduceExGr)[
genExUnl]),
as.numeric(GenomicRanges::start(reduceExGr))[genExUnl],
as.numeric(GenomicRanges::end(reduceExGr))[genExUnl],
as.character(GenomicRanges::strand(reduceExGr))[genExUnl],
rep("exon",length(genExUnl)),
seq(from=1, by=2, length.out=length(genExUnl)),
rep(tmp,length(genExUnl))))
}
return( res )
} )
matOut= data.frame(
chr=as.character(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[1:(length(tmp)/7)]) ) ) )) ,
begin=as.numeric(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[1*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ) )),
end=as.numeric(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[2*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ) )),
strand=as.character(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[3*(length(tmp)/7)+(1:(length(tmp)/7))]) ) ) )),
int_ex=as.character(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[4*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ))),
int_ex_num=as.numeric(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[5*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ))),
collapsed_transcripts_id=as.numeric(unlist(sapply(matOutVecTmp,
function(tmp)
return( (tmp[6*(length(tmp)/7)+(1:(length(tmp)/7))]) ) )
)),
stringsAsFactors=FALSE)
hitsGenToColl= GenomicRanges::findOverlaps(genGr,reduceGenGr,
type="any")
#Annotate collapsed transcripts
trAnnoCollList=lapply(
as.numeric(unique(matOut[,"collapsed_transcripts_id"])),
function(tmp)
namesExons[S4Vectors::queryHits(hitsGenToColl)[
S4Vectors::subjectHits(hitsGenToColl)==tmp]])
trAnnoColl=sapply(trAnnoCollList, function(tmp) paste(tmp,
collapse=','))
names(trAnnoColl)=
as.character(unique(matOut[,"collapsed_transcripts_id"]))
if(addCollapsedTranscripts)
matOut$collapsed_transcripts=
trAnnoColl[as.character(matOut[,"collapsed_transcripts_id"])]
if(annotateGeneIds){
trGenesTx<- GenomicFeatures::transcriptsBy(human.txdb, by="gene")
if(length(trGenesTx)>0){
trGenesVec=unlist(lapply(1:length(trGenesTx), function(tmp)
paste(names(trGenesTx)[tmp],
trGenesTx[[tmp]]$tx_name,sep=",")))
trGenes=unlist(strsplit(trGenesVec,split=","))[
seq(from=1,by=2,length.out=length(trGenesVec))]
names(trGenes)=unlist(strsplit(trGenesVec,split=","))[
seq(from=2,by=2,length.out=length(trGenesVec))]
gene_ids= unlist(sapply(trAnnoCollList, function(tmp)
paste(unique(trGenes[tmp]), collapse=',')))
names(gene_ids)=
as.character(unique(matOut[,"collapsed_transcripts_id"]))
matOut$collapsed_gene_id=
gene_ids[as.character(matOut[,"collapsed_transcripts_id"])]
} else{
warning("Gene annotations were NOT available !")
annotateGeneIds=FALSE
}
}
if(outFileTranscriptsAnnotation!=""){
if(!annotateGeneIds){
write.table(cbind(names(trAnnoColl),as.vector(trAnnoColl)),
outFileTranscriptsAnnotation, sep='\t', quote=FALSE,
col.names=c("id", "collapsed_transcripts"),
row.names=FALSE)
} else {
write.table(cbind(names(trAnnoColl),as.vector(trAnnoColl),
trGenes[as.vector(trAnnoColl)]),
outFileTranscriptsAnnotation, sep='\t', quote=FALSE,
col.names=c("id", "collapsed_transcripts", "gene_id"),
row.names=FALSE)
}
}
} else {
introns <- GenomicFeatures::intronsByTranscript(human.txdb,
use.names=TRUE)
if(ignore.strand){
strMat=rep("*",
length(as.character(GenomicRanges::seqnames(unlist(exons))))+
length(as.character(GenomicRanges::seqnames(unlist(introns)))))
} else {
strMat<- c(as.character(GenomicRanges::strand(unlist(exons))),
as.character(GenomicRanges::strand(unlist(introns))))
}
chrEx<- as.character(GenomicRanges::seqnames(unlist(exons)))
chrInt<- as.character(GenomicRanges::seqnames(unlist(introns)))
stEx<- as.numeric(GenomicRanges::start(unlist(exons)))
stInt<- as.numeric(GenomicRanges::start(unlist(introns)))
endEx<- as.numeric(GenomicRanges::end(unlist(exons)))
endInt<- as.numeric(GenomicRanges::end(unlist(introns)))
noEx<- as.vector(unlist(lapply(1:length(exons), function(tmp)
return(seq(from=1, by=2,
length.out=length(exons[[tmp]]))))))
noInt<- as.vector(unlist(lapply(1:length(introns), function(tmp)
return(seq(from=2, by=2,
length.out=length(introns[[tmp]]))))))
exInt<- c(rep("exon",length(unlist(exons))),
rep("intron",length(unlist(introns))))
genNames<- c(names(unlist(exons)), names(unlist(introns)))
matTmp<- data.frame(chr=c(chrEx,chrInt),
begin=c(stEx,stInt),
end=c(endEx,endInt),
strand=strMat,
int_ex_num=c(noEx,noInt),
int_ex= exInt,
transcript_id=genNames
)
matInd= unlist(tapply(1:nrow(matTmp), as.character(matTmp[,7]),
function(tmp)return( tmp[order(as.numeric(matTmp[tmp,5]),
decreasing=FALSE)] )))
matOutTmp= data.frame(
chr=as.character(matTmp[,1]),
begin=as.numeric(matTmp[,2]),
end=as.numeric(matTmp[,3]),
strand=as.character(matTmp[,4]),
int_ex_num=as.numeric(matTmp[,5]),
int_ex=as.character(matTmp[,6]),
transcript_id=as.character(matTmp[,7]),
stringsAsFactors=FALSE)[matInd,]
matOut=matOutTmp
if(annotateGeneIds){
trGenesTx<- GenomicFeatures::transcriptsBy(human.txdb, by="gene")
if(length(trGenesTx)>0){
trGenesVec= unlist(lapply(1:length(trGenesTx), function(tmp)
paste(names(trGenesTx)[tmp], trGenesTx[[tmp]]$tx_name,
sep=",")))
trGenes= unlist(strsplit(trGenesVec,split=","))[
seq(from=1,by=2,length.out=length(trGenesVec))]
names(trGenes)= unlist(strsplit(trGenesVec,split=","))[
seq(from=2,by=2,length.out=length(trGenesVec))]
matOut$gene_id= trGenes[as.character(matOut[,"transcript_id"])]
if(outFileTranscriptsAnnotation!="")
write.table(cbind(names(trGenes),as.vector(trGenes)),
outFileTranscriptsAnnotation, sep='\t', quote=FALSE,
col.names=c("transcript_id", "collapsed_transcripts"),
row.names=FALSE)
} else {
warning("Gene annotations were NOT available !")
annotateGeneIds<-FALSE
}
}
#end else
}
#if(sourceBuild=="biomaRt")
# matOut[,"chr"]=paste("chr",matOut[,"chr"],sep="")
if( ( (length(u12IntronsChr)>0 & length(u12IntronsBeg)>0 &
length(u12IntronsEnd)>0)|(!missing(u12IntronsRef)) ) ){
matOutGr= GenomicRanges::GRanges( seqnames=matOut[,"chr"],
IRanges::IRanges(start=matOut[,"begin"] , end=matOut[,"end"] ))
if(missing(u12IntronsRef)){
u12IntGr= GenomicRanges::GRanges( seqnames=u12IntronsChr,
IRanges::IRanges(start=u12IntronsBeg , end=u12IntronsEnd ))
} else {
u12IntGr=u12IntronsRef
}
hitsU12Intron= GenomicRanges::findOverlaps(u12IntGr, matOutGr,
type="equal")
matOut$int_type= rep(NA, nrow(matOut))
matOut$int_type[matOut[,"int_ex"]=="intron"]= "U2"
matOut$int_type[unique(S4Vectors::subjectHits(hitsU12Intron))]= "U12"
}
if(!ignore.strand & collapseExons){
matOutTrGr=GenomicRanges::GRanges( seqnames=tapply(as.character(
matOut[,"chr"]),
matOut[,"collapsed_transcripts_id"],head, n=1),
IRanges::IRanges(start=tapply(as.numeric(matOut[,"begin"]),
matOut[,"collapsed_transcripts_id"],min) ,
end=tapply(as.numeric(matOut[,"end"]),
matOut[,"collapsed_transcripts_id"],max) ))
namesMatOutTrGr=unique(matOut[,"collapsed_transcripts_id"])
hitsExMat= GenomicRanges::findOverlaps(exonsGR, matOutTrGr,
type="any")
strTmp=tapply(strandsEx[S4Vectors::queryHits(hitsExMat)],
namesMatOutTrGr[S4Vectors::subjectHits(hitsExMat)], unique)
strTmpVec=sapply(strTmp, function(tmp){
if(length(tmp)==1){
return(as.character(tmp))
} else {
return("*")
}
})
names(strTmpVec)= names(strTmp)
matStr=strTmpVec[as.character(matOut[,"collapsed_transcripts_id"])]
matOut$strand=matStr
}
return(matOut)
}
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Defines functions referencePrepare
Documented in referencePrepare
referencePrepare <-
function( outFileTranscriptsAnnotation="",
annotateGeneIds=TRUE,
u12IntronsChr=c(), u12IntronsBeg=c(), u12IntronsEnd=c(),
u12IntronsRef,
collapseExons=TRUE, sourceBuild="UCSC", ucscGenome="hg19",
ucscTableName="knownGene",
ucscUrl="http://genome-euro.ucsc.edu/cgi-bin/",
biomart="ENSEMBL_MART_ENSEMBL",
biomartDataset="hsapiens_gene_ensembl",
biomartTranscriptIds=NULL, biomartExtraFilters=NULL,
biomartIdPrefix="ensembl_", biomartHost="www.ensembl.org",
biomartPort=80, circSeqs="", miRBaseBuild=NA, taxonomyId=NA,
filePath="", fileFormat=c("auto", "gff3", "gtf"), fileDatSrc=NA,
fileOrganism=NA, fileChrInf=NULL,
fileDbXrefTag=c(), addCollapsedTranscripts=TRUE,
ignore.strand=FALSE)
{
if(circSeqs[1]=="")
circSeqs<- NULL
# circSeqs=GenomicFeatures::DEFAULT_CIRC_SEQS
if(sourceBuild=="UCSC"){
human.txdb <- GenomicFeatures::makeTxDbFromUCSC(genome=ucscGenome,
tablename=ucscTableName, circ_seqs=circSeqs, url=ucscUrl,
taxonomyId=taxonomyId)
} else if (sourceBuild=="biomaRt"){
human.txdb=GenomicFeatures::makeTxDbFromBiomart(biomart=biomart,
dataset=biomartDataset,
transcript_ids=biomartTranscriptIds,
circ_seqs=circSeqs,
filter=biomartExtraFilters,
id_prefix=biomartIdPrefix,
host=biomartHost,
port=biomartPort,
miRBaseBuild=miRBaseBuild,
taxonomyId=taxonomyId)
}else if (sourceBuild=="file"){
if(length(fileDbXrefTag)==0){
human.txdb=GenomicFeatures::makeTxDbFromGFF(file=filePath,
format=fileFormat,
dataSource=fileDatSrc, organism=fileOrganism,
taxonomyId=taxonomyId,
circ_seqs=circSeqs, chrominfo=fileChrInf,
miRBaseBuild=miRBaseBuild)
} else {
human.txdb=GenomicFeatures::makeTxDbFromGFF(file=filePath,
format=fileFormat,
dataSource=fileDatSrc, organism=fileOrganism,
taxonomyId=taxonomyId,
circ_seqs=circSeqs, chrominfo=fileChrInf,
miRBaseBuild=miRBaseBuild, dbxrefTag=fileDbXrefTag)
}
}
exons<- GenomicFeatures::exonsBy(human.txdb, by="tx", use.names=TRUE)
namesExons=names(exons)
time1=Sys.time()
exonsGR=GenomicRanges::GRanges(
seqnames=as.character(GenomicRanges::seqnames(unlist(exons))),
IRanges::IRanges(
start=as.numeric(GenomicRanges::start(unlist(exons))) ,
end=as.numeric(GenomicRanges::end(unlist(exons))) ))
if(!ignore.strand){
strandsEx=as.character(GenomicRanges::strand(unlist(exons)))
}
if (collapseExons){
genMat=matrix(as.vector(unlist(sapply(exons,function(tmp)
return( c((as.character(GenomicRanges::seqnames(tmp)))[1],
as.numeric(GenomicRanges::start(tmp))[1],
as.numeric(GenomicRanges::width(tmp))[1],
utils::tail(as.numeric(GenomicRanges::start(tmp)),n=1),
utils::tail(as.numeric(GenomicRanges::width(tmp)),n=1),
as.character(GenomicRanges::strand(tmp))[1] ))))),
byrow=TRUE, ncol=6)
genBegs= as.numeric(as.numeric(genMat[,2]))
genBegs[genMat[,6]=="-"]=
as.numeric(as.numeric(genMat[genMat[,6]=="-",4]))
genEnds= (as.numeric(genMat[,4])+as.numeric(genMat[,5])-1)
genEnds[genMat[,6]=="-"]= as.numeric(genMat[genMat[,6]=="-",2])+
as.numeric(genMat[genMat[,6]=="-",3])-1
genGr=GenomicRanges::GRanges( seqnames=genMat[,1],
IRanges::IRanges(start=genBegs , end=genEnds ))
reduceExGr=GenomicRanges::reduce(exonsGR)
intronsGr=GenomicRanges::gaps(reduceExGr)
reduceGenGr=GenomicRanges::reduce(genGr)
hitsEx= GenomicRanges::findOverlaps(reduceExGr, reduceGenGr,
type="any")
hitsInt= GenomicRanges::findOverlaps(intronsGr, reduceGenGr,
type="any")
genesExMap=tapply(S4Vectors::queryHits(hitsEx),
S4Vectors::subjectHits(hitsEx), unique)
genesIntMap=tapply(S4Vectors::queryHits(hitsInt),
S4Vectors::subjectHits(hitsInt), unique)
lenGenesExMap=sapply(genesExMap,length)
multiEx=names(genesExMap[lenGenesExMap>1])
singleEx=names(genesExMap[lenGenesExMap==1])
allEx=names(genesExMap)
matOutVecTmp=lapply(allEx, function(tmp){
genExUnl=unlist(genesExMap[tmp])
genIntUnl=unlist(genesIntMap[tmp])
if(length(genIntUnl)>0){
res=as.vector(c(
as.character(GenomicRanges::seqnames(reduceExGr)[
genExUnl]),
as.character(GenomicRanges::seqnames(intronsGr)[
genIntUnl]),
as.numeric(GenomicRanges::start(reduceExGr))[genExUnl],
as.numeric(GenomicRanges::start(intronsGr))[genIntUnl],
as.numeric(GenomicRanges::end(reduceExGr))[genExUnl],
as.numeric(GenomicRanges::end(intronsGr))[genIntUnl],
as.character(GenomicRanges::strand(reduceExGr))[genExUnl],
as.character(GenomicRanges::strand(intronsGr))[genIntUnl],
rep("exon",length(genExUnl)),
rep("intron",length(genIntUnl)),
seq(from=1, by=2, length.out=length(genExUnl)),
seq(from=2, by=2, length.out=length(genIntUnl)),
rep(tmp,length(genIntUnl)+ length(genExUnl))))
} else {
res= as.vector(c(
as.character(GenomicRanges::seqnames(reduceExGr)[
genExUnl]),
as.numeric(GenomicRanges::start(reduceExGr))[genExUnl],
as.numeric(GenomicRanges::end(reduceExGr))[genExUnl],
as.character(GenomicRanges::strand(reduceExGr))[genExUnl],
rep("exon",length(genExUnl)),
seq(from=1, by=2, length.out=length(genExUnl)),
rep(tmp,length(genExUnl))))
}
return( res )
} )
matOut= data.frame(
chr=as.character(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[1:(length(tmp)/7)]) ) ) )) ,
begin=as.numeric(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[1*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ) )),
end=as.numeric(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[2*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ) )),
strand=as.character(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[3*(length(tmp)/7)+(1:(length(tmp)/7))]) ) ) )),
int_ex=as.character(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[4*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ))),
int_ex_num=as.numeric(unlist(sapply(matOutVecTmp, function(tmp)
return( (tmp[5*(length(tmp)/7)+(1:(length(tmp)/7))])[
order(as.numeric(tmp[5*(length(tmp)/7)+
(1:(length(tmp)/7))]),decreasing=FALSE)] ) ))),
collapsed_transcripts_id=as.numeric(unlist(sapply(matOutVecTmp,
function(tmp)
return( (tmp[6*(length(tmp)/7)+(1:(length(tmp)/7))]) ) )
)),
stringsAsFactors=FALSE)
hitsGenToColl= GenomicRanges::findOverlaps(genGr,reduceGenGr,
type="any")
#Annotate collapsed transcripts
trAnnoCollList=lapply(
as.numeric(unique(matOut[,"collapsed_transcripts_id"])),
function(tmp)
namesExons[S4Vectors::queryHits(hitsGenToColl)[
S4Vectors::subjectHits(hitsGenToColl)==tmp]])
trAnnoColl=sapply(trAnnoCollList, function(tmp) paste(tmp,
collapse=','))
names(trAnnoColl)=
as.character(unique(matOut[,"collapsed_transcripts_id"]))
if(addCollapsedTranscripts)
matOut$collapsed_transcripts=
trAnnoColl[as.character(matOut[,"collapsed_transcripts_id"])]
if(annotateGeneIds){
trGenesTx<- GenomicFeatures::transcriptsBy(human.txdb, by="gene")
if(length(trGenesTx)>0){
trGenesVec=unlist(lapply(1:length(trGenesTx), function(tmp)
paste(names(trGenesTx)[tmp],
trGenesTx[[tmp]]$tx_name,sep=",")))
trGenes=unlist(strsplit(trGenesVec,split=","))[
seq(from=1,by=2,length.out=length(trGenesVec))]
names(trGenes)=unlist(strsplit(trGenesVec,split=","))[
seq(from=2,by=2,length.out=length(trGenesVec))]
gene_ids= unlist(sapply(trAnnoCollList, function(tmp)
paste(unique(trGenes[tmp]), collapse=',')))
names(gene_ids)=
as.character(unique(matOut[,"collapsed_transcripts_id"]))
matOut$collapsed_gene_id=
gene_ids[as.character(matOut[,"collapsed_transcripts_id"])]
} else{
warning("Gene annotations were NOT available !")
annotateGeneIds=FALSE
}
}
if(outFileTranscriptsAnnotation!=""){
if(!annotateGeneIds){
write.table(cbind(names(trAnnoColl),as.vector(trAnnoColl)),
outFileTranscriptsAnnotation, sep='\t', quote=FALSE,
col.names=c("id", "collapsed_transcripts"),
row.names=FALSE)
} else {
write.table(cbind(names(trAnnoColl),as.vector(trAnnoColl),
trGenes[as.vector(trAnnoColl)]),
outFileTranscriptsAnnotation, sep='\t', quote=FALSE,
col.names=c("id", "collapsed_transcripts", "gene_id"),
row.names=FALSE)
}
}
} else {
introns <- GenomicFeatures::intronsByTranscript(human.txdb,
use.names=TRUE)
if(ignore.strand){
strMat=rep("*",
length(as.character(GenomicRanges::seqnames(unlist(exons))))+
length(as.character(GenomicRanges::seqnames(unlist(introns)))))
} else {
strMat<- c(as.character(GenomicRanges::strand(unlist(exons))),
as.character(GenomicRanges::strand(unlist(introns))))
}
chrEx<- as.character(GenomicRanges::seqnames(unlist(exons)))
chrInt<- as.character(GenomicRanges::seqnames(unlist(introns)))
stEx<- as.numeric(GenomicRanges::start(unlist(exons)))
stInt<- as.numeric(GenomicRanges::start(unlist(introns)))
endEx<- as.numeric(GenomicRanges::end(unlist(exons)))
endInt<- as.numeric(GenomicRanges::end(unlist(introns)))
noEx<- as.vector(unlist(lapply(1:length(exons), function(tmp)
return(seq(from=1, by=2,
length.out=length(exons[[tmp]]))))))
noInt<- as.vector(unlist(lapply(1:length(introns), function(tmp)
return(seq(from=2, by=2,
length.out=length(introns[[tmp]]))))))
exInt<- c(rep("exon",length(unlist(exons))),
rep("intron",length(unlist(introns))))
genNames<- c(names(unlist(exons)), names(unlist(introns)))
matTmp<- data.frame(chr=c(chrEx,chrInt),
begin=c(stEx,stInt),
end=c(endEx,endInt),
strand=strMat,
int_ex_num=c(noEx,noInt),
int_ex= exInt,
transcript_id=genNames
)
matInd= unlist(tapply(1:nrow(matTmp), as.character(matTmp[,7]),
function(tmp)return( tmp[order(as.numeric(matTmp[tmp,5]),
decreasing=FALSE)] )))
matOutTmp= data.frame(
chr=as.character(matTmp[,1]),
begin=as.numeric(matTmp[,2]),
end=as.numeric(matTmp[,3]),
strand=as.character(matTmp[,4]),
int_ex_num=as.numeric(matTmp[,5]),
int_ex=as.character(matTmp[,6]),
transcript_id=as.character(matTmp[,7]),
stringsAsFactors=FALSE)[matInd,]
matOut=matOutTmp
if(annotateGeneIds){
trGenesTx<- GenomicFeatures::transcriptsBy(human.txdb, by="gene")
if(length(trGenesTx)>0){
trGenesVec= unlist(lapply(1:length(trGenesTx), function(tmp)
paste(names(trGenesTx)[tmp], trGenesTx[[tmp]]$tx_name,
sep=",")))
trGenes= unlist(strsplit(trGenesVec,split=","))[
seq(from=1,by=2,length.out=length(trGenesVec))]
names(trGenes)= unlist(strsplit(trGenesVec,split=","))[
seq(from=2,by=2,length.out=length(trGenesVec))]
matOut$gene_id= trGenes[as.character(matOut[,"transcript_id"])]
if(outFileTranscriptsAnnotation!="")
write.table(cbind(names(trGenes),as.vector(trGenes)),
outFileTranscriptsAnnotation, sep='\t', quote=FALSE,
col.names=c("transcript_id", "collapsed_transcripts"),
row.names=FALSE)
} else {
warning("Gene annotations were NOT available !")
annotateGeneIds<-FALSE
}
}
#end else
}
#if(sourceBuild=="biomaRt")
# matOut[,"chr"]=paste("chr",matOut[,"chr"],sep="")
if( ( (length(u12IntronsChr)>0 & length(u12IntronsBeg)>0 &
length(u12IntronsEnd)>0)|(!missing(u12IntronsRef)) ) ){
matOutGr= GenomicRanges::GRanges( seqnames=matOut[,"chr"],
IRanges::IRanges(start=matOut[,"begin"] , end=matOut[,"end"] ))
if(missing(u12IntronsRef)){
u12IntGr= GenomicRanges::GRanges( seqnames=u12IntronsChr,
IRanges::IRanges(start=u12IntronsBeg , end=u12IntronsEnd ))
} else {
u12IntGr=u12IntronsRef
}
hitsU12Intron= GenomicRanges::findOverlaps(u12IntGr, matOutGr,
type="equal")
matOut$int_type= rep(NA, nrow(matOut))
matOut$int_type[matOut[,"int_ex"]=="intron"]= "U2"
matOut$int_type[unique(S4Vectors::subjectHits(hitsU12Intron))]= "U12"
}
if(!ignore.strand & collapseExons){
matOutTrGr=GenomicRanges::GRanges( seqnames=tapply(as.character(
matOut[,"chr"]),
matOut[,"collapsed_transcripts_id"],head, n=1),
IRanges::IRanges(start=tapply(as.numeric(matOut[,"begin"]),
matOut[,"collapsed_transcripts_id"],min) ,
end=tapply(as.numeric(matOut[,"end"]),
matOut[,"collapsed_transcripts_id"],max) ))
namesMatOutTrGr=unique(matOut[,"collapsed_transcripts_id"])
hitsExMat= GenomicRanges::findOverlaps(exonsGR, matOutTrGr,
type="any")
strTmp=tapply(strandsEx[S4Vectors::queryHits(hitsExMat)],
namesMatOutTrGr[S4Vectors::subjectHits(hitsExMat)], unique)
strTmpVec=sapply(strTmp, function(tmp){
if(length(tmp)==1){
return(as.character(tmp))
} else {
return("*")
}
})
names(strTmpVec)= names(strTmp)
matStr=strTmpVec[as.character(matOut[,"collapsed_transcripts_id"])]
matOut$strand=matStr
}
return(matOut)
}
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