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methmatrix2gender.R
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methmatrix2gender.R
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#!/usr/bin/env Rscript
### Prediction gender with methylation matrix
# rowname is coordination
# colnames is sample id
# First version MHB regions don't have any overlap with FHM therefore can not make gender inference.
# 2017-05-23
######################################################################################################
##########################load functions ##############################################################
######################################################################################################
#install.packages("Deducer")
#install.packages("stringr")
#install.packages("pROC")
library("stringr")
library("pROC")
#library("Deducer")
cor2bed<-function(cor){
cor<-as.character(cor)
a<-unlist(lapply(strsplit(cor,split=c(":")),function(x) strsplit(x,"-")))
bed<-matrix(a,ncol=3,byrow=T)
bed<-data.frame(bed,cor)
return(data.frame(bed))
}
bed2cg<-function(bed1){
ref<-read.table("~/oasis/db/hg19/GPL13534.sort.bed",head=F,sep="\t")
cor2bed<-function(cor){
cor<-as.character(cor)
a<-unlist(lapply(strsplit(cor,split=c(":")),function(x) strsplit(x,"-")))
bed<-matrix(a,ncol=3,byrow=T)
bed<-data.frame(bed,cor)
return(data.frame(bed))
}
rbedintersect<-function(bed1,ref){
Rbedtools<-function(functionstring="intersectBed",bed1,bed2,opt.string=""){
#create temp files
a.file=tempfile()
b.file=tempfile()
out =tempfile()
options(scipen =99) # not to use scientific notation when writing out
#write bed formatted dataframes to tempfile
write.table(bed1,file=a.file,quote=F,sep="\t",col.names=F,row.names=F)
write.table(bed2,file=b.file,quote=F,sep="\t",col.names=F,row.names=F)
# create the command string and call the command using system()
command=paste(functionstring,"-a",a.file,"-b",b.file,opt.string,">",out,sep=" ")
cat(command,"\n")
try(system(command))
res=read.table(out,header=F)
unlink(a.file);unlink(b.file);unlink(out)
res=subset(res,V5!=".")
return(res)
}
merge<-Rbedtools(functionstring="intersectBed",bed1,ref,opt.string="-wao")
return(merge)
}
merge<-rbedintersect(bed1,ref)
return(merge)
}
bed2cor<-function(bed,extend=0){
cor<-apply(bed,1,function(x) paste(x[1],":",as.numeric(x[2])-extend,"-",as.numeric(x[3])+extend,sep=""))
cor<-gsub(" ","",cor)
return(cor)
}
cg2bed<-function(cg,extend=0){
bed2cor<-function(bed){
cor<-apply(bed,1,function(x) paste(x[1],":",as.numeric(x[2])-extend,"-",as.numeric(x[3])+extend,sep=""))
cor<-gsub(" ","",cor)
return(cor)
}
ref<-read.table("~/oasis/db/hg19/GPL13534.sort.bed",head=F,sep="\t")
bed<-ref[match(cg,ref[,4]),1:3]
bed[,2]=bed[,2]-extend
bed[,3]=bed[,3]+extend
cor<-bed2cor(bed)
rlt<-data.frame(bed,cor,cg)
return(rlt)
}
write.bed<-function(bed,file,extend=0){
bed[,2]<-as.numeric(as.character(bed[,2]))-extend
bed[,3]<-as.numeric(as.character(bed[,3]))+extend
if(ncol(bed)==3){
bed[,4]<-paste(bed[,1],":",bed[,2],"-",bed[,3],sep="")
}
if(ncol(bed)>=4){
write.table(bed,file=file,sep="\t",col.names=F,row.names=F,quote=F)
}
}
see<-function(x){
x[1:3,1:3]
}
readmeth450<-function(){
rlt<-list()
library("stringr")
file<-list.files(pattern="jhu*")
data<-c()
for(i in file){
tmp<-read.table(i,head=T,skip=1,row.names=1,sep="\t",check.names = FALSE,as.is=T)
data<-cbind(data,tmp[,1])
print(i)
}
colnames(data)<-unlist(lapply(unlist(lapply(file,function(x) unlist(strsplit(x,"[.]"))[6])),function(x) substr(x,1,15)))
rownames(data)<-rownames(tmp)
cancertype<-unique(unlist(lapply(file,function(x) unlist(strsplit(x,"_|.Human"))[2])))
sampletype<-unlist(lapply(unlist(lapply(file,function(x) unlist(strsplit(x,"[.]"))[6])),function(x) substr(x,14,15)))
save(data,file=paste(cancertype,"meth.RData",sep="."))
rlt$data<-data
rlt$cancertype<-cancertype
rlt$sampletype<-sampletype
rlt$cpg<-rownames(data)
return(rlt)
}
rbedintersect<-function(bed1,ref){
Rbedtools<-function(functionstring="intersectBed",bed1,bed2,opt.string=""){
#create temp files
a.file=tempfile()
b.file=tempfile()
out =tempfile()
options(scipen =99) # not to use scientific notation when writing out
#write bed formatted dataframes to tempfile
write.table(bed1,file=a.file,quote=F,sep="\t",col.names=F,row.names=F)
write.table(bed2,file=b.file,quote=F,sep="\t",col.names=F,row.names=F)
# create the command string and call the command using system()
command=paste(functionstring,"-a",a.file,"-b",b.file,opt.string,">",out,sep=" ")
cat(command,"\n")
try(system(command))
res=read.table(out,header=F)
unlink(a.file);unlink(b.file);unlink(out)
res=subset(res,V5!=".")
return(res)
}
merge<-Rbedtools(functionstring="intersectBed",bed1,ref,opt.string="-wao")
return(merge)
}
methmatrix2gender<-function(data){
probability<-apply(data,2,function(x) sum(na.omit(x)>0.3)/length(na.omit(x)))
gender<-c(NA,length(probability))
gender[probability<0.3]<-"male"
gender[probability>0.3]<-"female"
prediction<-data.frame(id=substr(as.character(names(probability)),1,12),gender,probability)
return(prediction)
}
#########################################################################################
########################## prediction ####################################
#########################################################################################
args = commandArgs(trailingOnly=TRUE)
methmatrix<-args[1]
data<-read.table(methmatrix,head=T,row.names=1,sep="\t",as.is=T)
fhm<-read.table("~/oasis/db/FHM.bed",head=F,sep="\t",as.is=T)
testdata<-data[match(unique(bed2cor(rbedintersect(cor2bed(rownames(data)),fhm)[,1:3])),rownames(data)),]
predict<-methmatrix2gender(testdata)
print(predict)