Nothing
inst/Scripts/createScISI.R
In ScISI: In Silico Interactome
createScISI <- function(pathToSave=NULL, filter=FALSE, Gavin02 = FALSE,
Ho02 = FALSE, Krogan04 = FALSE, Gavin06 = FALSE,
Krogan06 = FALSE){
library(apComplex)
library(ppiStats)
library(ppiData)
library(ScISI)
goECodes = c("IEA", "NAS", "ND", "NR")
go = getGOInfo(wantDefault = TRUE, toGrep = NULL, parseType = NULL,
eCode = goECodes, wantAllComplexes = TRUE)
goMatrix = list2Matrix(go)
data(xtraGO)
#xtraGO <- setdiff(xtraGO, colnames(goMatrix))
#yG2P <- as.list(org.Sc.sgdGO2ORF)
#xtraComp <- yG2P[xtraGO]
#xtraComp <- xtraComp[!sapply(xtraComp, is.null)]
#xCM <- createGOMatrix(xtraComp)
######This ends the section for notesOtherComps
#goM <- mergeBGMat(goM, xCM)
goMatrix <- xtraGONodes(xtraGO, goMatrix)
##Comparing GO complexes with all other GO complexes:
go2go = runCompareComplex(goMatrix, goMatrix, byWhich = "ROW")
##Those GO complexes which are redundant or sub-complexes
##to other GO complexes:
rmFromGo = go2go$toBeRm
##End of GO##
##MIPS Section##
##Determine the MIPS evidence codes to exclude:
mipsECode = c("901.01.03",
"901.01.03.01",
"901.01.03.02",
"901.01.04",
"901.01.04.01",
"901.01.04.02",
"901.01.05",
"901.01.05.01",
"901.01.05.02",
"902.01.09.02",
"902.01.01.02.01.01",
"902.01.01.02.01.01.01",
"902.01.01.02.01.01.02",
"902.01.01.02.01.02",
"902.01.01.02.01.02.01",
"902.01.01.02.01.02.02",
"902.01.01.04",
"902.01.01.04.01",
"902.01.01.04.01.01",
"902.01.01.04.01.02",
"902.01.01.04.01.03",
"902.01.01.04.02",
"901.01.09.02")
##Getting the Mips protein complex composition:
mips = getMipsInfo(wantDefault = TRUE, toGrep = NULL, parseType = NULL,
eCode = NULL, wantSubComplexes = TRUE, ht=FALSE)
##Creating the Mips bi-partite graph incidence matrix:
mipsMatrix = list2Matrix(mips[["Mips"]])
##Comparing Mips complexes with all other Mips complexes:
mips2mips = runCompareComplex(mipsMatrix, mipsMatrix, byWhich= "ROW")
##Those Mips complexes which are redundant or sub-complexes
##to other Mips complexes:
rmFromMips = mips2mips$toBeRm
##Comparing the mips complexes to the GO complexes:
mips2go = runCompareComplex(mipsMatrix, goMatrix, byWhich= "ROW")
##Those Mips complexes which are redundant and those Mips and GO
##complexes which might be sub-complexes to other complexes:
rmFromMipsGo = mips2go$toBeRm
##End of Mips##
##Merging mipsMatrix and goMatrix:
ISI = mergeBGMat(mipsMatrix, goMatrix, toBeRm = unique(c(rmFromGo, rmFromMips,
rmFromMipsGo)))
##The following will be a call to a series of Scripts:
## 1. Call to a script which takes the bait-prey interactions from
## five AP-MS datasets and finds and removes proteins afftected by a
## systematic bias
if (filter) {
source("estimateComp.R")
}
## 2. After each bait-prey data set has been filtered, we run apComplex on
## each dataset
gavin02Matrix <- NULL
ho02Matrix <- NULL
krogan04Matrix <- NULL
gavin06Matrix <- NULL
krogan06Matrix <- NULL
if(Gavin02){
source("estGavin02.R")
g02 <- sortComplexes(Gavin02CompEst)
gavin02Matrix <- list2Matrix(g02[["MBME"]])
cn <- vector(length=ncol(gavin02Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Gavin02 - Complex", i, sep = " ")
}
colnames(gavin02Matrix) <- cn
}
if(Ho02){
source("estHo02.R")
h02 <- sortComplexes(Ho02CompEst)
ho02Matrix <- list2Matrix(h02[["MBME"]])
cn <- vector(length=ncol(ho02Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Ho02 - Complex", i, sep = " ")
}
colnames(ho02Matrix) <- cn
}
if(Krogan04){
source("estKrogan04.R")
k04 <- sortComplexes(Krogan04CompEst)
krogan04Matrix <- list2Matrix(k04[["MBME"]])
cn <- vector(length=ncol(krogan04Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Krogan04 - Complex", i, sep = " ")
}
colnames(krogan04Matrix) <- cn
}
if(Gavin06){
source("estGavin06.R")
g06 <- sortComplexes(Gavin06CompEst)
gavin06Matrix <- list2Matrix(g06[["MBME"]])
cn <- vector(length=ncol(gavin06Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Gavin06 - Complex", i, sep = " ")
}
colnames(gavin06Matrix) <- cn
}
if(Krogan06){
source("estKrogan06.R")
k06 <- sortComplexes(Krogan06CompEst)
krogan06Matrix <- list2Matrix(k06[["MBME"]])
cn <- vector(length=ncol(krogan06Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Krogan06 - Complex", i, sep = " ")
}
colnames(krogan06Matrix) <- cn
}
if(!is.null(gavin02Matrix)){
gav022ISI = runCompareComplex(gavin02Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(gavin02Matrix, ISI, toBeRm = gav022ISI[["toBeRm"]])
}
if(!is.null(ho02Matrix)){
ho022ISI = runCompareComplex(ho02Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(ho02Matrix, ISI, toBeRm = ho022ISI[["toBeRm"]])
}
if(!is.null(krogan04Matrix)){
kro042ISI = runCompareComplex(krogan04Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(krogan04Matrix, ISI, toBeRm = kro042ISI[["toBeRm"]])
}
if(!is.null(gavin06Matrix)){
gav062ISI = runCompareComplex(gavin06Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(gavin06Matrix, ISI, toBeRm = gav062ISI[["toBeRm"]])
}
if(!is.null(krogan06Matrix)){
kro062ISI = runCompareComplex(krogan06Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(krogan06Matrix, ISI, toBeRm = kro062ISI[["toBeRm"]])
}
ScISI <- unWantedComp(ISI)
ScISI
}
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ScISI documentation built on Nov. 8, 2020, 5:48 p.m.
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createScISI <- function(pathToSave=NULL, filter=FALSE, Gavin02 = FALSE,
Ho02 = FALSE, Krogan04 = FALSE, Gavin06 = FALSE,
Krogan06 = FALSE){
library(apComplex)
library(ppiStats)
library(ppiData)
library(ScISI)
goECodes = c("IEA", "NAS", "ND", "NR")
go = getGOInfo(wantDefault = TRUE, toGrep = NULL, parseType = NULL,
eCode = goECodes, wantAllComplexes = TRUE)
goMatrix = list2Matrix(go)
data(xtraGO)
#xtraGO <- setdiff(xtraGO, colnames(goMatrix))
#yG2P <- as.list(org.Sc.sgdGO2ORF)
#xtraComp <- yG2P[xtraGO]
#xtraComp <- xtraComp[!sapply(xtraComp, is.null)]
#xCM <- createGOMatrix(xtraComp)
######This ends the section for notesOtherComps
#goM <- mergeBGMat(goM, xCM)
goMatrix <- xtraGONodes(xtraGO, goMatrix)
##Comparing GO complexes with all other GO complexes:
go2go = runCompareComplex(goMatrix, goMatrix, byWhich = "ROW")
##Those GO complexes which are redundant or sub-complexes
##to other GO complexes:
rmFromGo = go2go$toBeRm
##End of GO##
##MIPS Section##
##Determine the MIPS evidence codes to exclude:
mipsECode = c("901.01.03",
"901.01.03.01",
"901.01.03.02",
"901.01.04",
"901.01.04.01",
"901.01.04.02",
"901.01.05",
"901.01.05.01",
"901.01.05.02",
"902.01.09.02",
"902.01.01.02.01.01",
"902.01.01.02.01.01.01",
"902.01.01.02.01.01.02",
"902.01.01.02.01.02",
"902.01.01.02.01.02.01",
"902.01.01.02.01.02.02",
"902.01.01.04",
"902.01.01.04.01",
"902.01.01.04.01.01",
"902.01.01.04.01.02",
"902.01.01.04.01.03",
"902.01.01.04.02",
"901.01.09.02")
##Getting the Mips protein complex composition:
mips = getMipsInfo(wantDefault = TRUE, toGrep = NULL, parseType = NULL,
eCode = NULL, wantSubComplexes = TRUE, ht=FALSE)
##Creating the Mips bi-partite graph incidence matrix:
mipsMatrix = list2Matrix(mips[["Mips"]])
##Comparing Mips complexes with all other Mips complexes:
mips2mips = runCompareComplex(mipsMatrix, mipsMatrix, byWhich= "ROW")
##Those Mips complexes which are redundant or sub-complexes
##to other Mips complexes:
rmFromMips = mips2mips$toBeRm
##Comparing the mips complexes to the GO complexes:
mips2go = runCompareComplex(mipsMatrix, goMatrix, byWhich= "ROW")
##Those Mips complexes which are redundant and those Mips and GO
##complexes which might be sub-complexes to other complexes:
rmFromMipsGo = mips2go$toBeRm
##End of Mips##
##Merging mipsMatrix and goMatrix:
ISI = mergeBGMat(mipsMatrix, goMatrix, toBeRm = unique(c(rmFromGo, rmFromMips,
rmFromMipsGo)))
##The following will be a call to a series of Scripts:
## 1. Call to a script which takes the bait-prey interactions from
## five AP-MS datasets and finds and removes proteins afftected by a
## systematic bias
if (filter) {
source("estimateComp.R")
}
## 2. After each bait-prey data set has been filtered, we run apComplex on
## each dataset
gavin02Matrix <- NULL
ho02Matrix <- NULL
krogan04Matrix <- NULL
gavin06Matrix <- NULL
krogan06Matrix <- NULL
if(Gavin02){
source("estGavin02.R")
g02 <- sortComplexes(Gavin02CompEst)
gavin02Matrix <- list2Matrix(g02[["MBME"]])
cn <- vector(length=ncol(gavin02Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Gavin02 - Complex", i, sep = " ")
}
colnames(gavin02Matrix) <- cn
}
if(Ho02){
source("estHo02.R")
h02 <- sortComplexes(Ho02CompEst)
ho02Matrix <- list2Matrix(h02[["MBME"]])
cn <- vector(length=ncol(ho02Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Ho02 - Complex", i, sep = " ")
}
colnames(ho02Matrix) <- cn
}
if(Krogan04){
source("estKrogan04.R")
k04 <- sortComplexes(Krogan04CompEst)
krogan04Matrix <- list2Matrix(k04[["MBME"]])
cn <- vector(length=ncol(krogan04Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Krogan04 - Complex", i, sep = " ")
}
colnames(krogan04Matrix) <- cn
}
if(Gavin06){
source("estGavin06.R")
g06 <- sortComplexes(Gavin06CompEst)
gavin06Matrix <- list2Matrix(g06[["MBME"]])
cn <- vector(length=ncol(gavin06Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Gavin06 - Complex", i, sep = " ")
}
colnames(gavin06Matrix) <- cn
}
if(Krogan06){
source("estKrogan06.R")
k06 <- sortComplexes(Krogan06CompEst)
krogan06Matrix <- list2Matrix(k06[["MBME"]])
cn <- vector(length=ncol(krogan06Matrix))
for(i in 1:length(cn)){
cn[i] <- paste("Krogan06 - Complex", i, sep = " ")
}
colnames(krogan06Matrix) <- cn
}
if(!is.null(gavin02Matrix)){
gav022ISI = runCompareComplex(gavin02Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(gavin02Matrix, ISI, toBeRm = gav022ISI[["toBeRm"]])
}
if(!is.null(ho02Matrix)){
ho022ISI = runCompareComplex(ho02Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(ho02Matrix, ISI, toBeRm = ho022ISI[["toBeRm"]])
}
if(!is.null(krogan04Matrix)){
kro042ISI = runCompareComplex(krogan04Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(krogan04Matrix, ISI, toBeRm = kro042ISI[["toBeRm"]])
}
if(!is.null(gavin06Matrix)){
gav062ISI = runCompareComplex(gavin06Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(gavin06Matrix, ISI, toBeRm = gav062ISI[["toBeRm"]])
}
if(!is.null(krogan06Matrix)){
kro062ISI = runCompareComplex(krogan06Matrix, ISI, byWhich= "ROW")
ISI = mergeBGMat(krogan06Matrix, ISI, toBeRm = kro062ISI[["toBeRm"]])
}
ScISI <- unWantedComp(ISI)
ScISI
}
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