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R/calcGraphStats.R
In ScISI: In Silico Interactome
Defines functions
calcGraphStats
Documented in
calcGraphStats
calcGraphStats <- function(comp, bait2PreyL){
b2GWPreyL <- bait2PreyL
degCompBait <- list()
degBait <- list()
compB2P <- list()
notBait <- vector()
complexBaits <- vector()
for(j in 1:length(comp)){
##hits are those proteins found by the bait, comp[j] in any y2h experiment.
##these proteins need not be in comp
hits <- unique(unlist(lapply(b2GWPreyL, function(x) x[[comp[j]]])))
if(is.null(hits)){
##we define a bait to be any protein that finds at least one prey
##in at least one experiment
notBait <- c(notBait, comp[j])
}
else{
##we record this as a bait for this complex, comp
##NB - this bait might not find any other comp preys tough...
complexBaits <- c(complexBaits, comp[j])
}
##degBait = the degree of the baits when prey is GW
degBait[[j]] <- length(hits)
##we would like to know what preys are found in this complex, comp
hitsInComp <- intersect(comp, hits)
##degCompBaits = the degree of the baits when restricted to the comp
degCompBait[[j]] <- length(hitsInComp)
##now we can record the complex preys for each bait
if(is.null(hitsInComp)){
compB2P[[j]] <- character(0)
}
else{
##compB2P = for each bait, we find the hits in the complex
compB2P[[j]] <- hitsInComp
}
}
names(compB2P) <- comp
names(degBait) <- comp
##the sample test wants to see the number of preys found by each element of comp
##NB - if the sampleTest[i] = 0, this does not mean comp[i] is not a bait...it
##simply implies that if comp[i] were a bait, it did not find any comp prey
sampleTest <- sapply(compB2P, length)
##b2CompP (nonTrivialBaits) = those complex baits that found some complex preys
##b2CompP stands for "bait to comp preys"
b2CompP <- names(compB2P)[which(sampleTest!=0)]
##degSampledBait = for each non-trivial, how many GW prey did it find:
###degSampledBait <- unlist(degBait[which(sampleTest != 0)])
##foundPrey = a vector of all the proteins found as baits in the comp
foundPrey <- unique(unlist(compB2P))
##notIsolated = a vector of all proteins that interacte non-trivially with another
##protein in the comp
notIsolated <- c(b2CompP, foundPrey)
if(length(complexBaits) != 0){
##the avgOutDeg calc the gw average out degree for each bait which is why
##it uses degBait and not degCompBait
avgOutDeg <- (sum(unlist(degCompBait)))/(length(complexBaits))
}
else{
avgOutDeg = NA
}
###allBaitsPreys <- lapply(bait2PreyL, function(x) x[comp])
###allBaits <- unique(unlist(lapply(allBaitsPreys, names))[!is.na(unlist(lapply(allBaitsPreys, names)))])
###allPreys <- unique(unlist(allBaitsPreys))
##eList = calc the edge proportion and the y2h Adj Mat
eList <- edgeProp(comp, compB2P, complexBaits)
##mDeg = calc the meanPopDegree of the baits in comp
mDeg <- meanDeg(comp, degCompBait, complexBaits)
sumStats <- list()
sumStats$complex <- comp
sumStats$complexBaits <- complexBaits
sumStats$nonTrivialCompBaits <- b2CompP
sumStats$nonTrivialCompPreys <- unique(unlist(compB2P))
sumStats$notBait <- notBait
sumStats$avgOutDeg <- avgOutDeg
sumStats$nonIsolatedCompProt <- unique(notIsolated)
sumStats$y2hGraph <- eList$y2hGraph
sumStats$estNumEdges <- mDeg
sumStats$edgeProp <- eList$eProp
#sumStats$degBait <- degBait
sumStats
}
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ScISI documentation built on Nov. 8, 2020, 5:48 p.m.
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Defines functions calcGraphStats
Documented in calcGraphStats
calcGraphStats <- function(comp, bait2PreyL){
b2GWPreyL <- bait2PreyL
degCompBait <- list()
degBait <- list()
compB2P <- list()
notBait <- vector()
complexBaits <- vector()
for(j in 1:length(comp)){
##hits are those proteins found by the bait, comp[j] in any y2h experiment.
##these proteins need not be in comp
hits <- unique(unlist(lapply(b2GWPreyL, function(x) x[[comp[j]]])))
if(is.null(hits)){
##we define a bait to be any protein that finds at least one prey
##in at least one experiment
notBait <- c(notBait, comp[j])
}
else{
##we record this as a bait for this complex, comp
##NB - this bait might not find any other comp preys tough...
complexBaits <- c(complexBaits, comp[j])
}
##degBait = the degree of the baits when prey is GW
degBait[[j]] <- length(hits)
##we would like to know what preys are found in this complex, comp
hitsInComp <- intersect(comp, hits)
##degCompBaits = the degree of the baits when restricted to the comp
degCompBait[[j]] <- length(hitsInComp)
##now we can record the complex preys for each bait
if(is.null(hitsInComp)){
compB2P[[j]] <- character(0)
}
else{
##compB2P = for each bait, we find the hits in the complex
compB2P[[j]] <- hitsInComp
}
}
names(compB2P) <- comp
names(degBait) <- comp
##the sample test wants to see the number of preys found by each element of comp
##NB - if the sampleTest[i] = 0, this does not mean comp[i] is not a bait...it
##simply implies that if comp[i] were a bait, it did not find any comp prey
sampleTest <- sapply(compB2P, length)
##b2CompP (nonTrivialBaits) = those complex baits that found some complex preys
##b2CompP stands for "bait to comp preys"
b2CompP <- names(compB2P)[which(sampleTest!=0)]
##degSampledBait = for each non-trivial, how many GW prey did it find:
###degSampledBait <- unlist(degBait[which(sampleTest != 0)])
##foundPrey = a vector of all the proteins found as baits in the comp
foundPrey <- unique(unlist(compB2P))
##notIsolated = a vector of all proteins that interacte non-trivially with another
##protein in the comp
notIsolated <- c(b2CompP, foundPrey)
if(length(complexBaits) != 0){
##the avgOutDeg calc the gw average out degree for each bait which is why
##it uses degBait and not degCompBait
avgOutDeg <- (sum(unlist(degCompBait)))/(length(complexBaits))
}
else{
avgOutDeg = NA
}
###allBaitsPreys <- lapply(bait2PreyL, function(x) x[comp])
###allBaits <- unique(unlist(lapply(allBaitsPreys, names))[!is.na(unlist(lapply(allBaitsPreys, names)))])
###allPreys <- unique(unlist(allBaitsPreys))
##eList = calc the edge proportion and the y2h Adj Mat
eList <- edgeProp(comp, compB2P, complexBaits)
##mDeg = calc the meanPopDegree of the baits in comp
mDeg <- meanDeg(comp, degCompBait, complexBaits)
sumStats <- list()
sumStats$complex <- comp
sumStats$complexBaits <- complexBaits
sumStats$nonTrivialCompBaits <- b2CompP
sumStats$nonTrivialCompPreys <- unique(unlist(compB2P))
sumStats$notBait <- notBait
sumStats$avgOutDeg <- avgOutDeg
sumStats$nonIsolatedCompProt <- unique(notIsolated)
sumStats$y2hGraph <- eList$y2hGraph
sumStats$estNumEdges <- mDeg
sumStats$edgeProp <- eList$eProp
#sumStats$degBait <- degBait
sumStats
}
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