Mercurial > repos > jfb > negative_motif_finder_7_7

diff NMF/NMF-working-7-4-2020.R @ 5:5edbfbeba354 draft default tip

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author jfb
date Tue, 14 Jul 2020 20:01:02 -0400
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/NMF/NMF-working-7-4-2020.R	Tue Jul 14 20:01:02 2020 -0400
@@ -0,0 +1,139 @@
+NAMEOFOUTPUTFILE<-"output1.csv"
+
+SuperAwesometrial <- read.delim2("input1.tabular", header=FALSE)
+SBF<-read.csv("input3.csv", stringsAsFactors = FALSE, header = FALSE)
+SBF<-t(SBF)
+PositiveMotifs <- read.csv("input2.csv", stringsAsFactors=FALSE)
+
+
+YsToim<-rep("xY",times=nrow(PositiveMotifs))
+PositiveMotifs[,11]<-YsToim
+
+
+
+#this code is meant to take a list of proteins, and our list of phosphopeptides, and find which Y-containing peptides could have been found phosphorylated but weren't
+
+
+
+#first then I create the list of phosphopeptides
+Positive9Letters<-PositiveMotifs[,4:18]
+PositiveTrueMotifs<-c()
+
+#then I take the proteins 
+AccessionNumbers<-as.character(SBF[2:nrow(SBF),1])
+AccessionNumbers<-AccessionNumbers[!is.na(AccessionNumbers)]
+#the above is only those proteins from which our phosphopeptides sprung, the below is every protein in the human proteome
+ALLPOSSIBLE<-SuperAwesometrial[,1]
+ALLPOSSIBLE<-as.character(ALLPOSSIBLE)
+
+for (q in 1:nrow(Positive9Letters)) {
+  LeftJust<-0
+  RightJust<-0
+  
+  
+  motifmotif<-Positive9Letters[q,]
+  motifmotif<-paste(motifmotif, collapse = "",sep = "")
+  motifmotif<-unlist(strsplit(motifmotif, split = ""))
+  position <- match(x = "x", table = motifmotif)
+  LeftJust<-position-1
+  RightJust<-length(motifmotif)-position-1
+  #find which position was the phospho-amino acid, it is marked with an X
+  
+  LeftSpaces<-rep(x=" ", times=(7-LeftJust))
+  RightSpaces<-rep(x=" ", times=(7-RightJust))
+  motifmotif<-motifmotif[!motifmotif %in% c("x")]
+  motifmotif<-c(LeftSpaces,motifmotif,RightSpaces)
+  motifmotif<-paste(motifmotif, collapse = "",sep = "")
+  #put spaces on either side of the motif if the motif does not fill out a -7 to +7 motif
+  
+  PositiveTrueMotifs<-c(PositiveTrueMotifs,motifmotif)
+}
+
+
+
+allmotifs<-matrix(data=rep("Motifs", times= 1000000),ncol = 1)
+thenames<-matrix(data=rep("AccessionNumbers", times= 1000000),ncol = 1)
+#I preallocate vectors for efficiency, but I have no way of knowing how big these particular vectors need to be, so I just make them way bigger
+#than I know they need to be.  A vector 1 million long is plenty big
+
+MotifNumber<-2
+
+locations<-unique(grep(paste(AccessionNumbers,collapse="|"), ALLPOSSIBLE))
+
+
+if (sum(locations)>0){
+  whereisit<-locations
+  for (u in 1:length(whereisit)) {
+    i<-whereisit[u]
+    name<-c()
+    data<-c()
+    name<-as.character(SuperAwesometrial[i,1])
+    #the name of each protein is the first column 
+    name<-sub(x=name, pattern=",", replacement="")
+    #the names may contain commas, remove them
+    data<-as.character(SuperAwesometrial[i,3])
+    #the amino acids are stored in the third column
+    data<-strsplit(data,"")
+    #split them into their component letters
+    data<-unlist(data)
+    #turn them into a vector
+    motif<-c()
+    
+    #this part below is where I can speed things up
+    The_Ys<-data=="Y"
+    #find any Y in the protein
+    if (sum(The_Ys>0)){ #if there is at least one Y
+      Where_are_they<-which(The_Ys %in% TRUE)
+      for (z in 1:length(Where_are_they)) { #then for every Y, make a motif
+        
+        j<-Where_are_they[z]
+        a <- j-7
+        a<-ifelse(a<1, a <- 1, a <- a)
+        b<-j+7
+        b<-ifelse(b>length(data), b <- length(data), b <- 
+                    b)
+        #take the motif that is +/- 4 from that Y, sanity checks so that values are never off the grid from the protein
+        
+        LeftSide<-7-(j-a)
+        RightSide<-7-(b-j)
+        #how is the motif justified?  Does it have exactly 4 letters to the left/right, or does it not?
+        
+        leftspaces<-rep(" ",times=LeftSide)
+        rightspaces<-rep(" ",times=RightSide)
+        #add blank spaces if the motif has less than 4 letters to the left/right
+        
+        
+        motif<-(data[(a):(b)])
+        motif<-c(leftspaces,motif,rightspaces)
+        #save that motif, which is the Y and +/- 4 amino acids, including truncation
+        
+        motif<-paste(motif, sep="", collapse="")
+        #the 4 amino acids, put them back together into a single string
+        motif<-matrix(data=c(motif),nrow = 1)
+        namesss<-matrix(data=c(name),nrow = 1)
+        #keep this motif and separately keep the name of the protein it came from
+        
+        allmotifs[MotifNumber,1]<-motif
+        thenames[MotifNumber,1]<-namesss
+        MotifNumber<-MotifNumber+1
+        
+      }
+      
+    }
+  }
+}
+
+
+
+
+names(allmotifs)<-thenames
+
+truemotifs<-allmotifs[!duplicated(allmotifs)]
+#remove duplicates from the motifs and names
+
+#make the motifs and names into matrices
+truemotifs<-truemotifs[!truemotifs %in% PositiveTrueMotifs]
+outputfile<-cbind(names(truemotifs),truemotifs)
+outputfile <- gsub(",","",outputfile)
+write.table(outputfile, file=NAMEOFOUTPUTFILE, quote=FALSE, sep=",",
+             row.names=FALSE,col.names = FALSE, na="", append=TRUE)