Nothing
R/ptm-methods.R
In isobar: Analysis and quantitation of isobarically tagged MSMS proteomics data
Defines functions
getPeptideModifContext
.proteinPtmInfo
observedKnownSites
modif.site.count
modif.sites
filterSpectraPhosphoRS
readPhosphoRSOutput
.convertPeptideModif
.convertPhosphoRSPepProb
.convertModifToPos
writeHscoreData
.convertModifToPhosphoRS
.getModifOnPosition
filterSpectraDeltaScore
calc.pep.delta.score
calc.delta.score
writePhosphoRSInput
getPhosphoRSProbabilities
Documented in
calc.delta.score
calc.pep.delta.score
filterSpectraDeltaScore
filterSpectraPhosphoRS
getPeptideModifContext
getPhosphoRSProbabilities
modif.site.count
modif.sites
observedKnownSites
readPhosphoRSOutput
writeHscoreData
writePhosphoRSInput
getPhosphoRSProbabilities <- function(
id.file,mgf.file,massTolerance,activationType,simplify=FALSE,
mapping.file=NULL,mapping=c(peaklist="even",id="odd"),pepmodif.sep="##.##",besthit.only=TRUE,
phosphors.cmd=paste("java -jar",system.file("phosphors","phosphoRS.jar",package="isobar")),
file.basename=tempfile("phosphors.")) {
infile <- paste0(file.basename,".in.xml")
outfile <- paste0(file.basename,".out.xml")
writePhosphoRSInput(infile,
id.file,mgf.file,massTolerance,activationType,
mapping.file,mapping,pepmodif.sep)
system(paste(phosphors.cmd,shQuote(infile),shQuote(outfile)))
readPhosphoRSOutput(outfile,simplify=simplify,pepmodif.sep=pepmodif.sep,besthit.only=besthit.only)
}
.iTRAQ.mass = c(monoisotopic = 144.102063, average = 144.1544)
.iTRAQ8.mass = c(monoisotopic = 304.2, average = 304.308)
.CysCAM.mass = c(monoisotopic = 57.021464, average = 57.0513)
.OxidationM.mass = c(monoisotopic = 15.994915, average = 15.9994)
.TMT6.mass = c(monoisotopic = 229.162932, average = 229.2634)
writePhosphoRSInput <-
function(phosphoRS.infile,id.file,mgf.file,massTolerance,activationType,
mapping.file=NULL,mapping=c(peaklist="even",id="odd"),pepmodif.sep="##.##",
modif.masses=
rbind(c("PHOS", "1","1:Phospho:Phospho:79.966331:PhosphoLoss:97.976896:STY"),
c("Oxidation_M","2","2:Oxidation:Oxidation:15.994919:null:0:M"),
c("Cys_CAM", "3","3:Carbamidomethylation:Carbamidomethylation:57.021464:null:0:C"),
c("iTRAQ4plex", "4","4:iTRAQ4:iTRAQ4:144.1544:null:0:KX"),
c("iTRAQ8plex", "5","5:iTRAQ8:iTRAQ8:304.308:null:0:KX"),
c("TMT6plex", "7","7:TMT6:TMT6:229.162932:null:0:KX"),
c("TMTsixplex", "6","6:TMT6:TMT6:229.162932:null:0:KX"))) {
if (is.data.frame(id.file))
ids <- id.file
else
ids <- isobar:::.read.idfile(id.file,id.format="ibspectra.csv",log=NULL)
ids <- unique(ids[,c("peptide","modif","spectrum")])
# data[,SC['PEPTIDE']] <- gsub("I","L",data[,SC['PEPTIDE']])
if (!is.null(mapping.file)) {
mapping.quant2id <- do.call(rbind,lapply(mapping.file,function(f) {
read.table(f,header=TRUE,sep=',',stringsAsFactors=FALSE)
}))
cn <- colnames(mapping.quant2id)
if (!all(mapping %in% cn))
stop("mapping not correct")
colnames(mapping.quant2id)[cn == mapping['id']] <- 'id'
colnames(mapping.quant2id)[cn == mapping['peaklist']] <- 'peaklist'
}
con.out <- file(phosphoRS.infile,'w')
cat.f <- function(...) cat(...,"\n",file=con.out,sep="",append=TRUE)
cat.f("<phosphoRSInput>")
cat.f(" <MassTolerance Value='",0.02,"' />")
cat.f(" <Phosphorylation Symbol='1' />")
cat.f(" <Spectra>")
input <- c()
for (f in mgf.file) {
con <- file(f,'r')
input <- c(input,readLines(con))
close(con)
}
begin_ions <- which(input=="BEGIN IONS")+1
end_ions <- which(input=="END IONS")-1
titles <- gsub("TITLE=","",grep("TITLE",input,value=TRUE),fixed=TRUE)
if (!all(ids$spectrum %in% titles))
stop("Not all id spectrum titles are in MGF titles!\n",
.sum.bool.c(ids$spectrum %in% titles))
if (length(begin_ions) != length(end_ions))
stop("mgf file is errorneous, non-matching number",
" of BEGIN IONS and END IONS tags");
modif <- "PHOS"
ids$modifrs <- .convertModifToPhosphoRS(ids$modif,modif.masses)
pepid <- 0
for (title in unique(ids[grep(modif,ids$modif),"spectrum"])) {
spectrum_i <- which(titles==title)
spectrum <- input[begin_ions[spectrum_i]:end_ions[spectrum_i]]
## read header
header <- .strsplit_vector(spectrum[grep("^[A-Z]",spectrum)],"=")
peaks <- gsub(" ?","",spectrum[grep("^[0-9]",spectrum)],fixed=TRUE)
if (length(peaks) > 0) {
cat.f(" <Spectrum ID='",URLencode(header["TITLE"],reserved=TRUE),"'",
" PrecursorCharge='",sub("+","",header["CHARGE"],fixed=TRUE),"'",
" ActivationTypes='",activationType,"'>")
cat.f(" <Peaks>",paste(gsub("\\s+",":",peaks),collapse=","),"</Peaks>")
for (id_i in which(ids$spectrum==title)) {
pepid <- pepid + 1
cat.f(" <IdentifiedPhosphorPeptides>")
cat.f(" <Peptide ID='",ids[id_i,"peptide"],pepmodif.sep,ids[id_i,"modif"],"'",
" Sequence='",ids[id_i,"peptide"],"'",
" ModificationInfo='",ids[id_i,"modifrs"],"' />")
cat.f(" </IdentifiedPhosphorPeptides>")
}
cat.f(" </Spectrum>")
}
}
cat.f(" </Spectra>")
cat.f(" <ModificationInfos>")
for (i in seq_len(nrow(modif.masses))) {
cat.f(" <ModificationInfo Symbol='",modif.masses[i,2],"' Value='",modif.masses[i,3],"' />")
}
cat.f(" </ModificationInfos>")
cat.f("</phosphoRSInput>")
close(con.out)
}
calc.delta.score <- function(my.data) {
pep.n.prot <- unique(my.data[,c("accession","peptide","start.pos")])
my.data$accession <- NULL
my.data$start.pos <- NULL
my.data <- unique(my.data)
if (!any(by(my.data$score,my.data$spectrum, length)>1)) {
stop("Cannot calculate delta score: Only one hit per spectrum available")
}
my.data$delta.score <- my.data$score
my.data$n.pep <- 1
my.data$n.loc <- 1
res <- ddply(my.data,"spectrum",function(x) {
if (nrow(x) == 1) return(x);
res <- x[which.max(x$score),,drop=FALSE]
res$n.pep <- length(unique(x$peptide))
x <- x[-which.max(x$score),] # remove best hit from x
res$delta.score <- res[,'score'] - x[which.max(x$score),'score'] # calc delta score w/ max
res$delta.score.pep <- res$delta.score
x <- x[x$peptide == res[,'peptide',],] # only keep same peptide hits in x
if (nrow(x) == 0) return(res);
res$delta.score.pep <- res[,'score'] - x[which.max(x$score),'score'] # calc delta score w/ max (same pep)
res$n.loc <- nrow(x) + 1
return(res);
})
my.data <- merge(pep.n.prot,res,by="peptide",all.y=TRUE)
return(my.data[order(my.data[,"accession"],my.data[,"peptide"]),])
}
calc.pep.delta.score <- function(y,spectrum.col='spectrum',score.col='score',peptide.col='peptide') {
y$delta.score <- y$score
y$delta.score.pep <- y$score
y$delta.score.notpep <- y$score
y$n.pep <- 1
y$n.loc <- 1
ddply(y,"spectrum",function(x) {
if (nrow(x) == 1) return(x);
res <- x[which.max(x$score),,drop=FALSE]
res$n.pep <- length(unique(x[,peptide.col]))
x <- x[-which.max(x$score),] # remove best hit from x
res$delta.score <- res[,'score'] - x[which.max(x$score),'score'] # calc delta score w/ max
res$delta.score.pep <- res$delta.score
y <- x[x$peptide == res[,'peptide'],] # only keep same peptide hits in x
if (nrow(y) > 0) {
res$delta.score.pep <- res[,'score'] - y[which.max(y$score),'score'] # calc delta score w/ max (same pep)
res$n.loc <- nrow(x) + 1
}
y <- x[x$peptide != res[,'peptide'],] # only keep different peptide hits
if (nrow(y) > 0) {
res$delta.score.notpep <- res[,'score'] - y[which.max(y$score),'score'] # calc delta score w/ max (different pep)
}
return(res);
})
}
filterSpectraDeltaScore <- function(my.data, min.delta.score=10, do.remove=FALSE) {
if (!"delta.score" %in% colnames(my.data))
my.data <- calc.delta.score(my.data)
if (!is.null(min.delta.score)) {
sel.mindeltascore <- my.data[,"delta.score"] >= min.delta.score
my.data[,"use.for.quant"] <- my.data[,"use.for.quant"] & sel.mindeltascore
if (isTRUE(do.remove))
my.data <- my.data[,sel.mindeltascore]
}
return(my.data)
}
.getModifOnPosition <- function(modifstring,pos=NULL) {
splitmodif <- strsplit(paste0(modifstring," "),":")
sapply(seq_along(splitmodif),function(i) {
x <- splitmodif[[i]]
x[length(x)] <- sub(" $","",x[length(x)])
if (!is.null(pos))
if (length(pos)==1)
x[pos+1]
else
x[pos[i]+1]
else
x[seq(from=2,to=length(x)-1)]
})
}
.convertModifToPhosphoRS <- function(modifstring,modifs) {
sapply(strsplit(paste0(modifstring," "),":"),function(x) {
x[length(x)] <- sub(" $","",x[length(x)])
xx <- x
xx[x==""] <- 0
xx[x!=""] <- NA
for (i in seq_len(nrow(modifs)))
xx[grep(paste0("^",modifs[i,1]),x)] <- modifs[i,2]
if(any(is.na(xx))) stop("Could not convert [",paste0(x[is.na(xx)],collapse=" and "),"] modifstring ",modifstring)
y <- c(xx[1],".",xx[2:(length(xx)-1)],".",xx[length(xx)]);
paste(y,collapse="") })
}
writeHscoreData <- function(outfile,ids,massfile="defs.txt") {
# command line call: [python Hscorer.py --myDir . --quantmeth itraq --massfile defs.txt]
modif.masses <- read.delim(text=grep("\t",readLines(massfile),value=TRUE),
stringsAsFactors=FALSE)
modif.masses <- as.matrix(modif.masses[,c(3,1)])
modif.masses <- modif.masses[nchar(modif.masses[,1]) > 1,]
modifstring <- gsub(".","",.convertModifToPhosphoRS(ids[,'modif'],modif.masses),fixed=TRUE)
write.table(cbind(ids[,'spectrum'],ids[,'peptide'],modifstring),file=outfile,
col.names=FALSE,row.names=FALSE,sep="\t",quote=FALSE)
}
## TODO:
#.convertModifToPosAndName <- function(modifstring,modif=c(p="PHOS",o="Oxidation_M",c="Cys_CAM",
# me="METH_KR",me="METH_K",me="METH_R",
# me2="BIMETH_KR",me2="BIMETH_K",me2="BIMETH_R",
# me3="TRIMETH_K",
# ac="ACET_K"),collapse="&",simplify=TRUE) {
# sapply(strsplit(paste0(modifstring," "),":"),function(x) {
# x[length(x)] <- sub(" $","",x[length(x)])
# res <- sapply(seq_along(x),function(x.i) {
# which(modif==indiv.modif)
# })
# if (!is.null(collapse))
# paste(which(x%in%modif)-1,collapse=collapse)
# else
# which(x%in%modif)-1
# },simplify=simplify)
#}
#
.convertModifToPos <- function(modifstring,modif="PHOS",collapse="&",simplify=TRUE,and.name=FALSE) {
split.modif <- strsplit(paste0(modifstring," "),":")
if (and.name) {
name.modif <- .names.as.vector(modif)
}
sapply(split.modif,function(x) {
x[length(x)] <- sub(" $","",x[length(x)])
modification.pos <- which(x%in%modif)-1
if (!is.null(collapse))
paste(modification.pos,collapse=collapse)
else {
if (and.name)
data.frame(modif.pos=modification.pos,modif=name.modif[x[modification.pos+1]],stringsAsFactors=FALSE)
else
modification.pos
}
},simplify=simplify)
}
.convertPhosphoRSPepProb <- function(peptide,pepprob,round.to.frac=NULL) {
mapply(function(pep,pprob) {
pprob <- as.numeric(pprob)
prob <- rep(-1,length(pep))
pep.pos <- pprob[seq(from=1,to=length(pprob),by=2)]
pep.prob <- pprob[seq(from=2,to=length(pprob),by=2)]
if (!is.null(round.to.frac))
pep.prob <- round(pep.prob*round.to.frac)/round.to.frac
prob[pep.pos] <- pep.prob
prob_mask <- !is.na(prob) & prob>=0
pep[prob_mask] <- paste0(pep[prob_mask],"(",prob[prob_mask],")")
paste0(pep,collapse="")
},
strsplit(peptide,""),
strsplit(pepprob,"[;:]"))
}
.convertPeptideModif <- function(peptide,modifstring,
modifs=c(p="PHOS",o="Oxidation_M",c="Cys_CAM",
me="METH_KR",me="METH_K",me="METH_R",
dime="BIMETH_KR",dime="BIMETH_K",dime="BIMETH_R",
trime="TRIMETH_K",
ac="ACET_K")) {
names(letters) <- LETTERS
if (length(peptide)==0 || all(nchar(peptide)==0))
stop("peptide length=0")
mapply(function(pep,m) {
m <- m[-c(1,length(m))]
if (is.null(names(modifs))) {
for (mm in modifs)
pep[m==mm] <- letters[pep[m==mm]]
} else {
for (i in seq_along(modifs))
pep[m==modifs[i]] <- paste0(pep[m==modifs[i]],"(",names(modifs)[i],")")
}
paste(pep,collapse="")
},
strsplit(peptide,""),
strsplit(paste0(modifstring," "),":")
)
}
readPhosphoRSOutput <- function(phosphoRS.outfile,simplify=FALSE,pepmodif.sep="##.##",
besthit.only=TRUE) {
requireNamespace("XML")
doc <- XML::xmlTreeParse(phosphoRS.outfile,useInternalNodes=TRUE)
spectra <- XML::xmlRoot(doc)[["Spectra"]]
res <- XML::xmlApply(spectra,function(spectrum) {
spectrum.id <- URLdecode(XML::xmlAttrs(spectrum)["ID"])
#message(spectrum.id)
res.s <- XML::xmlApply(spectrum[["Peptides"]],function(peptide) {
pep.id <- strsplit(XML::xmlAttrs(peptide)["ID"],pepmodif.sep,fixed=TRUE)[[1]]
#message(pep.id[1])
site.probs <- t(XML::xmlSApply(peptide[["SitePrediction"]],XML::xmlAttrs))
isoforms <- t(XML::xmlSApply(peptide[["Isoforms"]],function(isoform) {
seqpos <- XML::xmlSApply(isoform[["PhosphoSites"]],XML::xmlGetAttr,"SeqPos")
# get right modif string
modifstring <- strsplit(paste0(pep.id[2]," "),":")[[1]]
modifstring <- gsub(" $","",modifstring)
modifstring[modifstring=='PHOS'] <- ''
modifstring[as.numeric(seqpos)+1] <- 'PHOS'
modifstring <- paste(modifstring,collapse=":")
if (length(seqpos > 1)) seqpos <- paste(seqpos,collapse="&")
c(modif=modifstring,
pepscore=XML::xmlAttrs(isoform)[['PepScore']],
pepprob=XML::xmlAttrs(isoform)[['PepProb']],
seqpos=seqpos)
}))
#rownames(isoforms) <- NULL
storage.mode(site.probs) <- "numeric"
site.probs[,2] <- round(site.probs[,2],2)
if (isTRUE(simplify))
data.frame(peptide=pep.id[1],isoforms,
site.probs=paste(apply(site.probs,1,paste,collapse=":"),collapse=";"),
stringsAsFactors=FALSE,row.names=NULL)
else
list(peptide=pep.id,
site.probs=site.probs,
isoforms=isoforms)
})
if (simplify)
data.frame(spectrum=spectrum.id,do.call(rbind,res.s),
stringsAsFactors=FALSE,row.names=NULL)
else
res.s
})
if (simplify) {
res <- do.call(rbind,res)
res$pepscore <- as.numeric(res$pepscore)
res$pepprob <- as.numeric(res$pepprob)
rownames(res) <- NULL
} else {
names(res) <- sapply(XML::xmlChildren(spectra),XML::xmlGetAttr,"ID")
}
if(besthit.only & simplify) {
res <- ddply(res,'spectrum',function(d) d[which.max(d$pepprob),])
rownames(res) <- res$spectrum
}
res
}
filterSpectraPhosphoRS <- function(id.file,mgf.file,...,min.prob=NULL, do.remove=FALSE) {
if (is(id.file,"character"))
id.file <- .read.idfile(id.file)
probs <- getPhosphoRSProbabilities(id.file,mgf.file,...,simplify=TRUE)
## probs excludes non-PHOS peptides - we do filter them for now? (about 8-10%)
id.file$peptide <- NULL
id.file$modif <- NULL
colnames.both <- intersect(colnames(id.file),colnames(probs))
if (length(colnames.both) > 1) {
stop("id.file includes colnames which are added by the function filterSpectraPhosphoRS: \n",
"\t",paste(sort(colnames.both[colnames.both != 'spectrum']),collapse=", "),
"\nRemove them prior to calling filterSpectraPhosphoRS.")
}
id.file <- merge(id.file,probs,by="spectrum")
if (!is.null(min.prob)) {
if (!'use.for.quant' %in% colnames(id.file)) id.file$use.for.quant <- TRUE
sel.minprob <- id.file[,"pepprob"] >= min.prob
id.file[,"use.for.quant"] <- id.file[,"use.for.quant"] & sel.minprob
if (isTRUE(do.remove))
id.file <- id.file[,sel.minprob]
}
return(id.file)
}
modif.sites <- function(protein.group,protein.g=reporterProteins(protein.group),modif) {
pi <- protein.group@peptideInfo
ip <- indistinguishableProteins(protein.group)
sapply(protein.g,
function(my.protein.g) {
isoform.acs <- names(ip)[ip==my.protein.g]
res <- lapply(isoform.acs,function(ac) {
sel <- pi[,"protein"] == ac
pep.pos <- .convertModifToPos(pi[sel,"modif"],modif,simplify=FALSE,collapse=NULL)
modif.pos <- unlist(mapply(function(start.pos,pep.posi) start.pos + pep.posi -1,
pi[sel,"start.pos"],pep.pos))
seen.sites <- rep(FALSE,max(modif.pos))
seen.sites[modif.pos] <- TRUE
which(seen.sites)
})
names(res) <- isoform.acs
res
})
}
modif.site.count <- function(protein.group,protein.g=reporterProteins(protein.group),modif,take=max) {
modif.sites <- modif.sites(protein.group,protein.g,modif)
sapply(modif.sites,function(modifs.protein.g) {
n.modifs.protein.acs <- sapply(modifs.protein.g,length)
take(n.modifs.protein.acs)
})
}
observedKnownSites <- function(protein.group,protein.g,ptm.info,modif,modification.name=NULL) {
modif.sites <- modif.sites(protein.group,protein.g,modif)
lapply(modif.sites,function(modifs.protein.g) {
lapply(names(modifs.protein.g),function(isoform.ac) {
observed.sites <- modifs.protein.g[[isoform.ac]]
sel.known.sites <- ptm.info$isoform_ac==ifelse(grepl("-[0-9]$",isoform.ac),
isoform.ac,paste(isoform.ac,"-1",sep=""))
if (!is.null(modification.name))
sel.known.sites <- sel.known.sites & grepl(modification.name,ptm.info$modification.name)
c(n.observed.sites=length(observed.sites),
n.known.sites=sum(sel.known.sites),
n.known.sites.observed=sum(ptm.info[sel.known.sites,"first_position"] %in% observed.sites))
})
})
}
.proteinPtmInfo <- function(isoform.ac,protein.group,ptm.info,modif,modification.name=NULL,simplify=TRUE) {
requireNamespace("OrgMassSpecR")
if (length(proteinInfo(protein.group)) == 0)
stop("no protein info attached to protein.group: see ?getProteinInfoFromUniprot on how to get it.")
protein.length <- as.numeric(proteinInfo(protein.group,protein.ac=isoform.ac,select="length") )
if(all(is.na(protein.length)))
stop("no protein info for ",isoform.ac,"; need protein length and sequence")
obs.peptides <- observable.peptides(proteinInfo(protein.group,protein.ac=isoform.ac,select="sequence"),nmc=2)
possible.sites <- t(sapply(seq_len(protein.length),function(p) c(possible.nmc1=any(p>=obs.peptides$start & p<=obs.peptides$stop & obs.peptides$mc <=1),
possible.nmc2=any(p>=obs.peptides$start & p<=obs.peptides$stop & obs.peptides$mc <=2))))
my.ptm.info <- ptm.info[ptm.info$isoform_ac==ifelse(grepl("-[0-9]$",isoform.ac),
isoform.ac,paste(isoform.ac,"-1",sep="")),]
if (!is.null(modification.name))
my.ptm.info <- my.ptm.info[my.ptm.info$modification.name%in%modification.name,]
# TO CHECK: first_position might be bigger than protein.length
known.sites <- rep(FALSE,protein.length)
if (nrow(my.ptm.info) > 0)
known.sites[my.ptm.info$first_position] <- TRUE
pi <- protein.group@peptideInfo
sel.has.modif <- sapply(strsplit(pi[,"modif"],":"),function(x) any(x %in% modif))
pi <- pi[pi[,"protein"]==isoform.ac & sel.has.modif,]
pep.pos <- .convertModifToPos(pi[,"modif"],modif,simplify=FALSE,collapse=NULL)
if (nrow(pi) > 0)
modif.pos <- unlist(mapply(function(start.pos,pep.posi) start.pos + pep.posi -1,
pi[,"start.pos"],pep.pos))
else
modif.pos <- NULL
seen.sites <- rep(FALSE,protein.length)
seen.sites[modif.pos] <- TRUE
if (simplify) {
return(
data.frame(observed.site.pos=paste(which(seen.sites),collapse=","),
observed.sites=sum(seen.sites),
known.sites=sum(known.sites),
oberserved.known.sites=sum(known.sites&seen.sites),
observable.known.sites.1mc=sum(known.sites&possible.sites[,"possible.nmc1"]),
observable.known.sites.2mc=sum(known.sites&possible.sites[,"possible.nmc2"]),
stringsAsFactors=FALSE)
)
} else {
return(list(peptideInfo=pi,modif.pos=modif.pos,
observable.peptides=obs.peptides,
known.sites=my.ptm.info))
}
}
getPeptideModifContext <- function(protein.group,modif,n.aa.up=7,n.aa.down=7) {
if (length(proteinInfo(protein.group)) == 0)
stop("no protein info attached to protein.group: see ?getProteinInfoFromUniprot on how to get it.")
peptide.info <- unique(peptideInfo(protein.group)[,c('modif','protein','peptide','real.peptide')])
protein.sequences <- paste0(paste0(rep("_",n.aa.down),collapse=""),
#gsub("I","L",proteinInfo(protein.group)[,'sequence']),
proteinInfo(protein.group)[,'sequence'],
paste0(rep("_",n.aa.up),collapse="")) # enlarge sequence in case peptide starts in the beginning / end
names(protein.sequences) <- proteinInfo(protein.group)[,'accession']
pep.modif.context <- mapply(function(pepmodifs,protein.ac,pep) {
my.seq <- protein.sequences[protein.ac]
if (is.na(my.seq)) {
warning("No sequence for ",protein.ac)
return(NA)
}
peptide.startpos <- gregexpr(pep,my.seq)[[1]]
if (peptide.startpos[1] == -1) {
warning("Peptide [",pep,"] could not be matched to ",protein.ac)
return(NA)
}
pepmodifs[length(pepmodifs)] <- sub(" $","",pepmodifs[length(pepmodifs)])
modification.positions <- which(pepmodifs%in%modif)-1
if (length(modification.positions) == 0)
return(NA)
paste(sapply(peptide.startpos,function(pep.pos) {
modification.positions.in.protein <- pep.pos + modification.positions - 1
res <- paste(sapply(modification.positions.in.protein,function(pos)
substr(my.seq,pos-n.aa.down,pos+n.aa.up)),collapse=",")
if (nchar(res) < n.aa.up+n.aa.down+1)
stop("extracted pattern does not have the length it should have")
res
}),collapse=",")
},strsplit(paste0(peptide.info[,'modif']," "),":"),
peptide.info[,'protein'],
peptide.info[,'real.peptide'])
# get pep-modif context
context.df <- unique(data.frame(peptide=peptide.info[,'peptide'],modif=peptide.info[,'modif'],context=pep.modif.context,stringsAsFactors=FALSE))
ddply(context.df,
c("peptide","modif"),
function(x)
data.frame(peptide=x[1,'peptide'],modif=x[1,'modif'],
context=paste(x[,'context'],collapse=";"),stringsAsFactors=FALSE))
}
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Defines functions getPeptideModifContext .proteinPtmInfo observedKnownSites modif.site.count modif.sites filterSpectraPhosphoRS readPhosphoRSOutput .convertPeptideModif .convertPhosphoRSPepProb .convertModifToPos writeHscoreData .convertModifToPhosphoRS .getModifOnPosition filterSpectraDeltaScore calc.pep.delta.score calc.delta.score writePhosphoRSInput getPhosphoRSProbabilities
Documented in calc.delta.score calc.pep.delta.score filterSpectraDeltaScore filterSpectraPhosphoRS getPeptideModifContext getPhosphoRSProbabilities modif.site.count modif.sites observedKnownSites readPhosphoRSOutput writeHscoreData writePhosphoRSInput
getPhosphoRSProbabilities <- function(
id.file,mgf.file,massTolerance,activationType,simplify=FALSE,
mapping.file=NULL,mapping=c(peaklist="even",id="odd"),pepmodif.sep="##.##",besthit.only=TRUE,
phosphors.cmd=paste("java -jar",system.file("phosphors","phosphoRS.jar",package="isobar")),
file.basename=tempfile("phosphors.")) {
infile <- paste0(file.basename,".in.xml")
outfile <- paste0(file.basename,".out.xml")
writePhosphoRSInput(infile,
id.file,mgf.file,massTolerance,activationType,
mapping.file,mapping,pepmodif.sep)
system(paste(phosphors.cmd,shQuote(infile),shQuote(outfile)))
readPhosphoRSOutput(outfile,simplify=simplify,pepmodif.sep=pepmodif.sep,besthit.only=besthit.only)
}
.iTRAQ.mass = c(monoisotopic = 144.102063, average = 144.1544)
.iTRAQ8.mass = c(monoisotopic = 304.2, average = 304.308)
.CysCAM.mass = c(monoisotopic = 57.021464, average = 57.0513)
.OxidationM.mass = c(monoisotopic = 15.994915, average = 15.9994)
.TMT6.mass = c(monoisotopic = 229.162932, average = 229.2634)
writePhosphoRSInput <-
function(phosphoRS.infile,id.file,mgf.file,massTolerance,activationType,
mapping.file=NULL,mapping=c(peaklist="even",id="odd"),pepmodif.sep="##.##",
modif.masses=
rbind(c("PHOS", "1","1:Phospho:Phospho:79.966331:PhosphoLoss:97.976896:STY"),
c("Oxidation_M","2","2:Oxidation:Oxidation:15.994919:null:0:M"),
c("Cys_CAM", "3","3:Carbamidomethylation:Carbamidomethylation:57.021464:null:0:C"),
c("iTRAQ4plex", "4","4:iTRAQ4:iTRAQ4:144.1544:null:0:KX"),
c("iTRAQ8plex", "5","5:iTRAQ8:iTRAQ8:304.308:null:0:KX"),
c("TMT6plex", "7","7:TMT6:TMT6:229.162932:null:0:KX"),
c("TMTsixplex", "6","6:TMT6:TMT6:229.162932:null:0:KX"))) {
if (is.data.frame(id.file))
ids <- id.file
else
ids <- isobar:::.read.idfile(id.file,id.format="ibspectra.csv",log=NULL)
ids <- unique(ids[,c("peptide","modif","spectrum")])
# data[,SC['PEPTIDE']] <- gsub("I","L",data[,SC['PEPTIDE']])
if (!is.null(mapping.file)) {
mapping.quant2id <- do.call(rbind,lapply(mapping.file,function(f) {
read.table(f,header=TRUE,sep=',',stringsAsFactors=FALSE)
}))
cn <- colnames(mapping.quant2id)
if (!all(mapping %in% cn))
stop("mapping not correct")
colnames(mapping.quant2id)[cn == mapping['id']] <- 'id'
colnames(mapping.quant2id)[cn == mapping['peaklist']] <- 'peaklist'
}
con.out <- file(phosphoRS.infile,'w')
cat.f <- function(...) cat(...,"\n",file=con.out,sep="",append=TRUE)
cat.f("<phosphoRSInput>")
cat.f(" <MassTolerance Value='",0.02,"' />")
cat.f(" <Phosphorylation Symbol='1' />")
cat.f(" <Spectra>")
input <- c()
for (f in mgf.file) {
con <- file(f,'r')
input <- c(input,readLines(con))
close(con)
}
begin_ions <- which(input=="BEGIN IONS")+1
end_ions <- which(input=="END IONS")-1
titles <- gsub("TITLE=","",grep("TITLE",input,value=TRUE),fixed=TRUE)
if (!all(ids$spectrum %in% titles))
stop("Not all id spectrum titles are in MGF titles!\n",
.sum.bool.c(ids$spectrum %in% titles))
if (length(begin_ions) != length(end_ions))
stop("mgf file is errorneous, non-matching number",
" of BEGIN IONS and END IONS tags");
modif <- "PHOS"
ids$modifrs <- .convertModifToPhosphoRS(ids$modif,modif.masses)
pepid <- 0
for (title in unique(ids[grep(modif,ids$modif),"spectrum"])) {
spectrum_i <- which(titles==title)
spectrum <- input[begin_ions[spectrum_i]:end_ions[spectrum_i]]
## read header
header <- .strsplit_vector(spectrum[grep("^[A-Z]",spectrum)],"=")
peaks <- gsub(" ?","",spectrum[grep("^[0-9]",spectrum)],fixed=TRUE)
if (length(peaks) > 0) {
cat.f(" <Spectrum ID='",URLencode(header["TITLE"],reserved=TRUE),"'",
" PrecursorCharge='",sub("+","",header["CHARGE"],fixed=TRUE),"'",
" ActivationTypes='",activationType,"'>")
cat.f(" <Peaks>",paste(gsub("\\s+",":",peaks),collapse=","),"</Peaks>")
for (id_i in which(ids$spectrum==title)) {
pepid <- pepid + 1
cat.f(" <IdentifiedPhosphorPeptides>")
cat.f(" <Peptide ID='",ids[id_i,"peptide"],pepmodif.sep,ids[id_i,"modif"],"'",
" Sequence='",ids[id_i,"peptide"],"'",
" ModificationInfo='",ids[id_i,"modifrs"],"' />")
cat.f(" </IdentifiedPhosphorPeptides>")
}
cat.f(" </Spectrum>")
}
}
cat.f(" </Spectra>")
cat.f(" <ModificationInfos>")
for (i in seq_len(nrow(modif.masses))) {
cat.f(" <ModificationInfo Symbol='",modif.masses[i,2],"' Value='",modif.masses[i,3],"' />")
}
cat.f(" </ModificationInfos>")
cat.f("</phosphoRSInput>")
close(con.out)
}
calc.delta.score <- function(my.data) {
pep.n.prot <- unique(my.data[,c("accession","peptide","start.pos")])
my.data$accession <- NULL
my.data$start.pos <- NULL
my.data <- unique(my.data)
if (!any(by(my.data$score,my.data$spectrum, length)>1)) {
stop("Cannot calculate delta score: Only one hit per spectrum available")
}
my.data$delta.score <- my.data$score
my.data$n.pep <- 1
my.data$n.loc <- 1
res <- ddply(my.data,"spectrum",function(x) {
if (nrow(x) == 1) return(x);
res <- x[which.max(x$score),,drop=FALSE]
res$n.pep <- length(unique(x$peptide))
x <- x[-which.max(x$score),] # remove best hit from x
res$delta.score <- res[,'score'] - x[which.max(x$score),'score'] # calc delta score w/ max
res$delta.score.pep <- res$delta.score
x <- x[x$peptide == res[,'peptide',],] # only keep same peptide hits in x
if (nrow(x) == 0) return(res);
res$delta.score.pep <- res[,'score'] - x[which.max(x$score),'score'] # calc delta score w/ max (same pep)
res$n.loc <- nrow(x) + 1
return(res);
})
my.data <- merge(pep.n.prot,res,by="peptide",all.y=TRUE)
return(my.data[order(my.data[,"accession"],my.data[,"peptide"]),])
}
calc.pep.delta.score <- function(y,spectrum.col='spectrum',score.col='score',peptide.col='peptide') {
y$delta.score <- y$score
y$delta.score.pep <- y$score
y$delta.score.notpep <- y$score
y$n.pep <- 1
y$n.loc <- 1
ddply(y,"spectrum",function(x) {
if (nrow(x) == 1) return(x);
res <- x[which.max(x$score),,drop=FALSE]
res$n.pep <- length(unique(x[,peptide.col]))
x <- x[-which.max(x$score),] # remove best hit from x
res$delta.score <- res[,'score'] - x[which.max(x$score),'score'] # calc delta score w/ max
res$delta.score.pep <- res$delta.score
y <- x[x$peptide == res[,'peptide'],] # only keep same peptide hits in x
if (nrow(y) > 0) {
res$delta.score.pep <- res[,'score'] - y[which.max(y$score),'score'] # calc delta score w/ max (same pep)
res$n.loc <- nrow(x) + 1
}
y <- x[x$peptide != res[,'peptide'],] # only keep different peptide hits
if (nrow(y) > 0) {
res$delta.score.notpep <- res[,'score'] - y[which.max(y$score),'score'] # calc delta score w/ max (different pep)
}
return(res);
})
}
filterSpectraDeltaScore <- function(my.data, min.delta.score=10, do.remove=FALSE) {
if (!"delta.score" %in% colnames(my.data))
my.data <- calc.delta.score(my.data)
if (!is.null(min.delta.score)) {
sel.mindeltascore <- my.data[,"delta.score"] >= min.delta.score
my.data[,"use.for.quant"] <- my.data[,"use.for.quant"] & sel.mindeltascore
if (isTRUE(do.remove))
my.data <- my.data[,sel.mindeltascore]
}
return(my.data)
}
.getModifOnPosition <- function(modifstring,pos=NULL) {
splitmodif <- strsplit(paste0(modifstring," "),":")
sapply(seq_along(splitmodif),function(i) {
x <- splitmodif[[i]]
x[length(x)] <- sub(" $","",x[length(x)])
if (!is.null(pos))
if (length(pos)==1)
x[pos+1]
else
x[pos[i]+1]
else
x[seq(from=2,to=length(x)-1)]
})
}
.convertModifToPhosphoRS <- function(modifstring,modifs) {
sapply(strsplit(paste0(modifstring," "),":"),function(x) {
x[length(x)] <- sub(" $","",x[length(x)])
xx <- x
xx[x==""] <- 0
xx[x!=""] <- NA
for (i in seq_len(nrow(modifs)))
xx[grep(paste0("^",modifs[i,1]),x)] <- modifs[i,2]
if(any(is.na(xx))) stop("Could not convert [",paste0(x[is.na(xx)],collapse=" and "),"] modifstring ",modifstring)
y <- c(xx[1],".",xx[2:(length(xx)-1)],".",xx[length(xx)]);
paste(y,collapse="") })
}
writeHscoreData <- function(outfile,ids,massfile="defs.txt") {
# command line call: [python Hscorer.py --myDir . --quantmeth itraq --massfile defs.txt]
modif.masses <- read.delim(text=grep("\t",readLines(massfile),value=TRUE),
stringsAsFactors=FALSE)
modif.masses <- as.matrix(modif.masses[,c(3,1)])
modif.masses <- modif.masses[nchar(modif.masses[,1]) > 1,]
modifstring <- gsub(".","",.convertModifToPhosphoRS(ids[,'modif'],modif.masses),fixed=TRUE)
write.table(cbind(ids[,'spectrum'],ids[,'peptide'],modifstring),file=outfile,
col.names=FALSE,row.names=FALSE,sep="\t",quote=FALSE)
}
## TODO:
#.convertModifToPosAndName <- function(modifstring,modif=c(p="PHOS",o="Oxidation_M",c="Cys_CAM",
# me="METH_KR",me="METH_K",me="METH_R",
# me2="BIMETH_KR",me2="BIMETH_K",me2="BIMETH_R",
# me3="TRIMETH_K",
# ac="ACET_K"),collapse="&",simplify=TRUE) {
# sapply(strsplit(paste0(modifstring," "),":"),function(x) {
# x[length(x)] <- sub(" $","",x[length(x)])
# res <- sapply(seq_along(x),function(x.i) {
# which(modif==indiv.modif)
# })
# if (!is.null(collapse))
# paste(which(x%in%modif)-1,collapse=collapse)
# else
# which(x%in%modif)-1
# },simplify=simplify)
#}
#
.convertModifToPos <- function(modifstring,modif="PHOS",collapse="&",simplify=TRUE,and.name=FALSE) {
split.modif <- strsplit(paste0(modifstring," "),":")
if (and.name) {
name.modif <- .names.as.vector(modif)
}
sapply(split.modif,function(x) {
x[length(x)] <- sub(" $","",x[length(x)])
modification.pos <- which(x%in%modif)-1
if (!is.null(collapse))
paste(modification.pos,collapse=collapse)
else {
if (and.name)
data.frame(modif.pos=modification.pos,modif=name.modif[x[modification.pos+1]],stringsAsFactors=FALSE)
else
modification.pos
}
},simplify=simplify)
}
.convertPhosphoRSPepProb <- function(peptide,pepprob,round.to.frac=NULL) {
mapply(function(pep,pprob) {
pprob <- as.numeric(pprob)
prob <- rep(-1,length(pep))
pep.pos <- pprob[seq(from=1,to=length(pprob),by=2)]
pep.prob <- pprob[seq(from=2,to=length(pprob),by=2)]
if (!is.null(round.to.frac))
pep.prob <- round(pep.prob*round.to.frac)/round.to.frac
prob[pep.pos] <- pep.prob
prob_mask <- !is.na(prob) & prob>=0
pep[prob_mask] <- paste0(pep[prob_mask],"(",prob[prob_mask],")")
paste0(pep,collapse="")
},
strsplit(peptide,""),
strsplit(pepprob,"[;:]"))
}
.convertPeptideModif <- function(peptide,modifstring,
modifs=c(p="PHOS",o="Oxidation_M",c="Cys_CAM",
me="METH_KR",me="METH_K",me="METH_R",
dime="BIMETH_KR",dime="BIMETH_K",dime="BIMETH_R",
trime="TRIMETH_K",
ac="ACET_K")) {
names(letters) <- LETTERS
if (length(peptide)==0 || all(nchar(peptide)==0))
stop("peptide length=0")
mapply(function(pep,m) {
m <- m[-c(1,length(m))]
if (is.null(names(modifs))) {
for (mm in modifs)
pep[m==mm] <- letters[pep[m==mm]]
} else {
for (i in seq_along(modifs))
pep[m==modifs[i]] <- paste0(pep[m==modifs[i]],"(",names(modifs)[i],")")
}
paste(pep,collapse="")
},
strsplit(peptide,""),
strsplit(paste0(modifstring," "),":")
)
}
readPhosphoRSOutput <- function(phosphoRS.outfile,simplify=FALSE,pepmodif.sep="##.##",
besthit.only=TRUE) {
requireNamespace("XML")
doc <- XML::xmlTreeParse(phosphoRS.outfile,useInternalNodes=TRUE)
spectra <- XML::xmlRoot(doc)[["Spectra"]]
res <- XML::xmlApply(spectra,function(spectrum) {
spectrum.id <- URLdecode(XML::xmlAttrs(spectrum)["ID"])
#message(spectrum.id)
res.s <- XML::xmlApply(spectrum[["Peptides"]],function(peptide) {
pep.id <- strsplit(XML::xmlAttrs(peptide)["ID"],pepmodif.sep,fixed=TRUE)[[1]]
#message(pep.id[1])
site.probs <- t(XML::xmlSApply(peptide[["SitePrediction"]],XML::xmlAttrs))
isoforms <- t(XML::xmlSApply(peptide[["Isoforms"]],function(isoform) {
seqpos <- XML::xmlSApply(isoform[["PhosphoSites"]],XML::xmlGetAttr,"SeqPos")
# get right modif string
modifstring <- strsplit(paste0(pep.id[2]," "),":")[[1]]
modifstring <- gsub(" $","",modifstring)
modifstring[modifstring=='PHOS'] <- ''
modifstring[as.numeric(seqpos)+1] <- 'PHOS'
modifstring <- paste(modifstring,collapse=":")
if (length(seqpos > 1)) seqpos <- paste(seqpos,collapse="&")
c(modif=modifstring,
pepscore=XML::xmlAttrs(isoform)[['PepScore']],
pepprob=XML::xmlAttrs(isoform)[['PepProb']],
seqpos=seqpos)
}))
#rownames(isoforms) <- NULL
storage.mode(site.probs) <- "numeric"
site.probs[,2] <- round(site.probs[,2],2)
if (isTRUE(simplify))
data.frame(peptide=pep.id[1],isoforms,
site.probs=paste(apply(site.probs,1,paste,collapse=":"),collapse=";"),
stringsAsFactors=FALSE,row.names=NULL)
else
list(peptide=pep.id,
site.probs=site.probs,
isoforms=isoforms)
})
if (simplify)
data.frame(spectrum=spectrum.id,do.call(rbind,res.s),
stringsAsFactors=FALSE,row.names=NULL)
else
res.s
})
if (simplify) {
res <- do.call(rbind,res)
res$pepscore <- as.numeric(res$pepscore)
res$pepprob <- as.numeric(res$pepprob)
rownames(res) <- NULL
} else {
names(res) <- sapply(XML::xmlChildren(spectra),XML::xmlGetAttr,"ID")
}
if(besthit.only & simplify) {
res <- ddply(res,'spectrum',function(d) d[which.max(d$pepprob),])
rownames(res) <- res$spectrum
}
res
}
filterSpectraPhosphoRS <- function(id.file,mgf.file,...,min.prob=NULL, do.remove=FALSE) {
if (is(id.file,"character"))
id.file <- .read.idfile(id.file)
probs <- getPhosphoRSProbabilities(id.file,mgf.file,...,simplify=TRUE)
## probs excludes non-PHOS peptides - we do filter them for now? (about 8-10%)
id.file$peptide <- NULL
id.file$modif <- NULL
colnames.both <- intersect(colnames(id.file),colnames(probs))
if (length(colnames.both) > 1) {
stop("id.file includes colnames which are added by the function filterSpectraPhosphoRS: \n",
"\t",paste(sort(colnames.both[colnames.both != 'spectrum']),collapse=", "),
"\nRemove them prior to calling filterSpectraPhosphoRS.")
}
id.file <- merge(id.file,probs,by="spectrum")
if (!is.null(min.prob)) {
if (!'use.for.quant' %in% colnames(id.file)) id.file$use.for.quant <- TRUE
sel.minprob <- id.file[,"pepprob"] >= min.prob
id.file[,"use.for.quant"] <- id.file[,"use.for.quant"] & sel.minprob
if (isTRUE(do.remove))
id.file <- id.file[,sel.minprob]
}
return(id.file)
}
modif.sites <- function(protein.group,protein.g=reporterProteins(protein.group),modif) {
pi <- protein.group@peptideInfo
ip <- indistinguishableProteins(protein.group)
sapply(protein.g,
function(my.protein.g) {
isoform.acs <- names(ip)[ip==my.protein.g]
res <- lapply(isoform.acs,function(ac) {
sel <- pi[,"protein"] == ac
pep.pos <- .convertModifToPos(pi[sel,"modif"],modif,simplify=FALSE,collapse=NULL)
modif.pos <- unlist(mapply(function(start.pos,pep.posi) start.pos + pep.posi -1,
pi[sel,"start.pos"],pep.pos))
seen.sites <- rep(FALSE,max(modif.pos))
seen.sites[modif.pos] <- TRUE
which(seen.sites)
})
names(res) <- isoform.acs
res
})
}
modif.site.count <- function(protein.group,protein.g=reporterProteins(protein.group),modif,take=max) {
modif.sites <- modif.sites(protein.group,protein.g,modif)
sapply(modif.sites,function(modifs.protein.g) {
n.modifs.protein.acs <- sapply(modifs.protein.g,length)
take(n.modifs.protein.acs)
})
}
observedKnownSites <- function(protein.group,protein.g,ptm.info,modif,modification.name=NULL) {
modif.sites <- modif.sites(protein.group,protein.g,modif)
lapply(modif.sites,function(modifs.protein.g) {
lapply(names(modifs.protein.g),function(isoform.ac) {
observed.sites <- modifs.protein.g[[isoform.ac]]
sel.known.sites <- ptm.info$isoform_ac==ifelse(grepl("-[0-9]$",isoform.ac),
isoform.ac,paste(isoform.ac,"-1",sep=""))
if (!is.null(modification.name))
sel.known.sites <- sel.known.sites & grepl(modification.name,ptm.info$modification.name)
c(n.observed.sites=length(observed.sites),
n.known.sites=sum(sel.known.sites),
n.known.sites.observed=sum(ptm.info[sel.known.sites,"first_position"] %in% observed.sites))
})
})
}
.proteinPtmInfo <- function(isoform.ac,protein.group,ptm.info,modif,modification.name=NULL,simplify=TRUE) {
requireNamespace("OrgMassSpecR")
if (length(proteinInfo(protein.group)) == 0)
stop("no protein info attached to protein.group: see ?getProteinInfoFromUniprot on how to get it.")
protein.length <- as.numeric(proteinInfo(protein.group,protein.ac=isoform.ac,select="length") )
if(all(is.na(protein.length)))
stop("no protein info for ",isoform.ac,"; need protein length and sequence")
obs.peptides <- observable.peptides(proteinInfo(protein.group,protein.ac=isoform.ac,select="sequence"),nmc=2)
possible.sites <- t(sapply(seq_len(protein.length),function(p) c(possible.nmc1=any(p>=obs.peptides$start & p<=obs.peptides$stop & obs.peptides$mc <=1),
possible.nmc2=any(p>=obs.peptides$start & p<=obs.peptides$stop & obs.peptides$mc <=2))))
my.ptm.info <- ptm.info[ptm.info$isoform_ac==ifelse(grepl("-[0-9]$",isoform.ac),
isoform.ac,paste(isoform.ac,"-1",sep="")),]
if (!is.null(modification.name))
my.ptm.info <- my.ptm.info[my.ptm.info$modification.name%in%modification.name,]
# TO CHECK: first_position might be bigger than protein.length
known.sites <- rep(FALSE,protein.length)
if (nrow(my.ptm.info) > 0)
known.sites[my.ptm.info$first_position] <- TRUE
pi <- protein.group@peptideInfo
sel.has.modif <- sapply(strsplit(pi[,"modif"],":"),function(x) any(x %in% modif))
pi <- pi[pi[,"protein"]==isoform.ac & sel.has.modif,]
pep.pos <- .convertModifToPos(pi[,"modif"],modif,simplify=FALSE,collapse=NULL)
if (nrow(pi) > 0)
modif.pos <- unlist(mapply(function(start.pos,pep.posi) start.pos + pep.posi -1,
pi[,"start.pos"],pep.pos))
else
modif.pos <- NULL
seen.sites <- rep(FALSE,protein.length)
seen.sites[modif.pos] <- TRUE
if (simplify) {
return(
data.frame(observed.site.pos=paste(which(seen.sites),collapse=","),
observed.sites=sum(seen.sites),
known.sites=sum(known.sites),
oberserved.known.sites=sum(known.sites&seen.sites),
observable.known.sites.1mc=sum(known.sites&possible.sites[,"possible.nmc1"]),
observable.known.sites.2mc=sum(known.sites&possible.sites[,"possible.nmc2"]),
stringsAsFactors=FALSE)
)
} else {
return(list(peptideInfo=pi,modif.pos=modif.pos,
observable.peptides=obs.peptides,
known.sites=my.ptm.info))
}
}
getPeptideModifContext <- function(protein.group,modif,n.aa.up=7,n.aa.down=7) {
if (length(proteinInfo(protein.group)) == 0)
stop("no protein info attached to protein.group: see ?getProteinInfoFromUniprot on how to get it.")
peptide.info <- unique(peptideInfo(protein.group)[,c('modif','protein','peptide','real.peptide')])
protein.sequences <- paste0(paste0(rep("_",n.aa.down),collapse=""),
#gsub("I","L",proteinInfo(protein.group)[,'sequence']),
proteinInfo(protein.group)[,'sequence'],
paste0(rep("_",n.aa.up),collapse="")) # enlarge sequence in case peptide starts in the beginning / end
names(protein.sequences) <- proteinInfo(protein.group)[,'accession']
pep.modif.context <- mapply(function(pepmodifs,protein.ac,pep) {
my.seq <- protein.sequences[protein.ac]
if (is.na(my.seq)) {
warning("No sequence for ",protein.ac)
return(NA)
}
peptide.startpos <- gregexpr(pep,my.seq)[[1]]
if (peptide.startpos[1] == -1) {
warning("Peptide [",pep,"] could not be matched to ",protein.ac)
return(NA)
}
pepmodifs[length(pepmodifs)] <- sub(" $","",pepmodifs[length(pepmodifs)])
modification.positions <- which(pepmodifs%in%modif)-1
if (length(modification.positions) == 0)
return(NA)
paste(sapply(peptide.startpos,function(pep.pos) {
modification.positions.in.protein <- pep.pos + modification.positions - 1
res <- paste(sapply(modification.positions.in.protein,function(pos)
substr(my.seq,pos-n.aa.down,pos+n.aa.up)),collapse=",")
if (nchar(res) < n.aa.up+n.aa.down+1)
stop("extracted pattern does not have the length it should have")
res
}),collapse=",")
},strsplit(paste0(peptide.info[,'modif']," "),":"),
peptide.info[,'protein'],
peptide.info[,'real.peptide'])
# get pep-modif context
context.df <- unique(data.frame(peptide=peptide.info[,'peptide'],modif=peptide.info[,'modif'],context=pep.modif.context,stringsAsFactors=FALSE))
ddply(context.df,
c("peptide","modif"),
function(x)
data.frame(peptide=x[1,'peptide'],modif=x[1,'modif'],
context=paste(x[,'context'],collapse=";"),stringsAsFactors=FALSE))
}
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