Nothing
R/GOsets.R
In tRanslatome: Comparison between multiple levels of gene expression
Defines functions
comparisonBetweenTwoLists
specificOntologyResult
## Class declaration
###############################################################################
setClass("GOsets", contains="EnrichedSets")
## Generics declaration (getters, setters and methods)
###############################################################################
setGeneric("GOComparison", signature="object",
function(object) standardGeneric("GOComparison"))
## Implementation of getters
###############################################################################
## Methods implementation
###############################################################################
setMethod("Radar", "GOsets",
function(object, outputformat="on screen",
n.nodes.1stlevel="5", n.nodes.2ndlevel="5", mult.cor=TRUE,
ontology="MF") {
pvalList1stlevel <- NULL
pvalList2ndlevel <- NULL
if (outputformat == "pdf") pdf(file="Radar.pdf")
if (outputformat == "postscript") postscript(file="Radar.ps")
if (outputformat == "jpeg")
jpeg(filename="Radar.jpeg", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (outputformat == "png")
png(filename="Radar.png", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (length(unique(enriched.table(object)[,1])) == 1 ) {
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher") ]
}
else {
# take the rows relevant only to the selected ontology
index <- apply(enriched.table(object), 1,
function(row) all(ontology %in% row))
Atable <- enriched.table(object)[index,
c("level", "GO.ID", "term", "pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[index,
c("level", "GO.ID", "term", "pv.fisher")]
}
indexfirst <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- Atable[indexfirst, -c(1) ]
List2ndlevel <- Atable[indexsecond, -c(1)]
uniquelist <- unique(c(List1stlevel[1:n.nodes.1stlevel,"GO.ID"],
List2ndlevel[1:n.nodes.2ndlevel,"GO.ID"]))
uniquelistTerms <- unique(c(List1stlevel[1:n.nodes.1stlevel,"term"],
List2ndlevel[1:n.nodes.2ndlevel,"term"]))
uniquelist <- uniquelist[!is.na(uniquelist)]
uniquelistTerms <- uniquelistTerms[!is.na(uniquelistTerms)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("One of the lists is empty!")
}
else {
for(i in 1:length(uniquelist)) {
print(uniquelist[i])
print(uniquelistTerms[i])
if ((uniquelist[i] %in% List1stlevel[,"GO.ID"]) == TRUE) {
pvalList1stlevel <- c(pvalList1stlevel, List1stlevel[
which(List1stlevel[,"GO.ID"] == uniquelist[i]),
3])
}
else {
pvalList1stlevel <- c(pvalList1stlevel, 1)
}
if ((uniquelist[i] %in% List2ndlevel[,"GO.ID"]) == TRUE) {
pvalList2ndlevel <- c(pvalList2ndlevel, List2ndlevel[
which(List2ndlevel[,"GO.ID"]==uniquelist[i]),
3])
}
else {
pvalList2ndlevel <- c(pvalList2ndlevel, 1)
}
}
}
matrix <- matrix(c(-log(as.numeric(pvalList1stlevel), base=10),
-log(as.numeric(pvalList2ndlevel), base=10)),
nrow=2, byrow=TRUE)
print(matrix)
if ((sum(matrix == 0)) == (nrow(matrix) * ncol(matrix))) {
print("There are no significant enriched terms in both levels.")
print("Try to set mult.cor to FALSE.")
}
else {
par(fig=c(0, 1, 0, 1), mar=c(8, 8, 8, 8), mgp=c(2, 0.75, 0))
radial.plot(matrix, labels=uniquelistTerms, rp.type="p",
grid.unit="-log10 p-value", line.col=c("steelblue3","gold1"),
show.grid.labels=3, lwd=3, start=1,
point.symbols=18, point.col="black")
legend("topleft", c(label.level.enriched(object)[1],
label.level.enriched(object)[2]),
fill=c("steelblue3", "gold1"), bty="n")
}
# if a file device is open, close it.
if (!(outputformat == "on screen")) dev.off()
}
)
setMethod("Heatmap", "GOsets",
function(object, outputformat="on screen",
n.nodes.1stlevel="5", n.nodes.2ndlevel="5", mult.cor=TRUE,
ontology="MF") {
pvalList1stlevel <- NULL
pvalList2ndlevel <- NULL
if (outputformat == "pdf") pdf(file="GO.Heatmap.pdf")
if (outputformat =="postscript") postscript(file="GO.Heatmap.ps")
if (outputformat == "jpeg")
jpeg(filename="GO.Heatmap.jpeg", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (outputformat == "png")
png(filename="GO.Heatmap.png", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (length(unique(enriched.table(object)[,1])) == 1 ) {
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher") ]
}
else {
# take the rows relevant only to the selected ontology
index <- apply(enriched.table(object), 1,
function(row) all(ontology %in% row))
Atable <- enriched.table(object)[index,
c("level","GO.ID","term","pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[index,
c("level","GO.ID","term","pv.fisher")]
}
indexfirst <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- Atable[indexfirst, -c(1) ]
List2ndlevel <- Atable[indexsecond, -c(1)]
uniquelist <- unique(c(List1stlevel[1:n.nodes.1stlevel, "GO.ID"],
List2ndlevel[1:n.nodes.2ndlevel, "GO.ID"]))
uniquelistTerms <- unique(c(List1stlevel[1:n.nodes.1stlevel, "term"],
List2ndlevel[1:n.nodes.2ndlevel, "term"]))
uniquelist <- uniquelist[!is.na(uniquelist)]
uniquelistTerms <- uniquelistTerms[!is.na(uniquelistTerms)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("One of the lists is empty!")
}
else {
for(i in 1:length(uniquelist)) {
print(uniquelist[i])
print(uniquelistTerms[i])
if ((uniquelist[i] %in% List1stlevel[,"GO.ID"]) == TRUE) {
pvalList1stlevel <- c(pvalList1stlevel, List1stlevel[
which(List1stlevel[,"GO.ID"]==uniquelist[i]),
3])
}
else {
pvalList1stlevel <- c(pvalList1stlevel, 1)
}
if ((uniquelist[i] %in% List2ndlevel[,"GO.ID"]) == TRUE) {
pvalList2ndlevel <- c(pvalList2ndlevel, List2ndlevel[
which(List2ndlevel[,"GO.ID"]==uniquelist[i]),
3])
}
else {
pvalList2ndlevel <- c(pvalList2ndlevel, 1)
}
}
}
matrix <- matrix(c(-log(as.numeric(pvalList1stlevel), base=10),
-log(as.numeric(pvalList2ndlevel), base=10)),
ncol=2)
print(matrix)
print(dim(matrix))
print(dim(uniquelistTerms))
if ((sum(matrix == 0)) == (nrow(matrix) * ncol(matrix))) {
print("There are no significant enriched terms in both levels.")
print("Try to set mult.cor to FALSE.")
}
else {
rownames(matrix) <- uniquelistTerms
colnames(matrix) <- c(label.level.enriched(object)[1],
label.level.enriched(object)[2])
print(matrix)
heatmap.2(matrix, col = RGBColVec(50)[c(26:50)], key=TRUE,
margins = c(7,20), keysize=1.5, denscol="white", na.rm = TRUE,
scale="none", dendrogram="both", trace="none",
Colv=TRUE, Rowv=TRUE, labRow=NULL, labCol=NULL,
cexRow=1, cexCol=1)
}
# if a file device is open, close it.
if (!(outputformat == "on screen")) dev.off()
}
)
setMethod("GOComparison", "GOsets",
function(object) {
resulttable <- NULL
# identity - stays the same for both of the cases
# first find the duplicates, then when encountering that duplicate
# check wether it is already covered,
# if not, leave that row as it is, put the label "both levels"
# and put it in "coveredDuplicates",
# if it is already covered mark it for deletion
Atable <- enriched.table(object)[,c("ontology", "level", "GO.ID", "term")]
duplicates <- Atable[duplicated(Atable[,"GO.ID"]), "GO.ID"]
Atable$level <- as.character(Atable$level)
coveredDuplicates <- c()
rowsForDeletion <- c()
for (i in 1:nrow(Atable)) {
if (any(duplicates == Atable[i, "GO.ID"])) {
if (all(coveredDuplicates != Atable[i, "GO.ID"])) {
Atable[i,"level"] <- "both levels"
coveredDuplicates <- c(coveredDuplicates, Atable[i,"GO.ID"])
}
else {
rowsForDeletion <- c(rowsForDeletion, i)
}
}
else {
Atable[i,"level"] <- paste(Atable[i,"level"],"only")
}
}
Atable <- Atable[-c(rowsForDeletion),]
if (length(unique(enriched.table(object)[,1])) == 1 ) {
Btable <- enriched.table(object)[,c("level","GO.ID","term")]
ontology <- as.character(unique(enriched.table(object)[,1]))
indexfirst <- apply(Btable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(Btable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- Btable[indexfirst,-c(1)]
List2ndlevel <- Btable[indexsecond,-c(1)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("One of the lists is empty!")
}
else {
resulttable1to2 <- comparisonBetweenTwoLists(List1stlevel,
List2ndlevel, ontology,
paste(label.level.enriched(object)[1], " to ",
label.level.enriched(object)[2]))
resulttable2to1 <- comparisonBetweenTwoLists(List2ndlevel,
List1stlevel, ontology,
paste(label.level.enriched(object)[2], " to ",
label.level.enriched(object)[1]))
#bind the two result tables
Similarity.Matrix <- rbind(resulttable1to2, resulttable2to1)
totalsimilarity <- c(mean(c(as.numeric(resulttable1to2[,7]),
as.numeric(resulttable2to1[,7]))))
names(totalsimilarity) <- c(
as.character(unique(enriched.table(object)[,1])))
}
}
else {
ontologyCC <- specificOntologyResult(object, "CC")
ontologyMF <- specificOntologyResult(object, "MF")
ontologyBP <- specificOntologyResult(object, "BP")
totalsimilarity <- c(mean(c(as.numeric(ontologyCC$result1[,7]),
as.numeric(ontologyCC$result2[,7]))),
mean(c(as.numeric(ontologyMF$result1[,7]),
as.numeric(ontologyMF$result2[,7]))),
mean(c(as.numeric(ontologyBP$result1[,7]),
as.numeric(ontologyBP$result2[,7]))))
names(totalsimilarity) <- c("CC","MF","BP")
Similarity.Matrix <- rbind(ontologyCC$result1, ontologyCC$result2,
ontologyMF$result1, ontologyMF$result2,
ontologyBP$result1, ontologyBP$result2)
}
# return the obtained results table
return(new("GOsims",
similarity.matrix = Similarity.Matrix,
identity.matrix = as.matrix(Atable),
average.similarity.scores = totalsimilarity))
}
)
## Helper functions
###############################################################################
specificOntologyResult <- function(object, ontology) {
index <- apply(enriched.table(object), 1,
function(row) all(ontology %in% row))
ontologyTable <- enriched.table(object)[index,c("level", "GO.ID", "term") ]
indexfirst <- apply(ontologyTable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(ontologyTable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- ontologyTable[indexfirst, -c(1)]
List2ndlevel <- ontologyTable[indexsecond, -c(1)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("There aren't enough BP GO enriched terms in one of the levels!")
}
else {
resulttable1to2 <- comparisonBetweenTwoLists(List1stlevel, List2ndlevel,
ontology, paste(label.level.enriched(object)[1], " to ",
label.level.enriched(object)[2]))
resulttable2to1 <- comparisonBetweenTwoLists(List2ndlevel, List1stlevel,
ontology, paste(label.level.enriched(object)[2], " to ",
label.level.enriched(object)[1]))
return(list(result1 = resulttable1to2, result2 = resulttable1to2))
}
}
comparisonBetweenTwoLists <- function(go1,go2,ontology,direction) {
ontData <- godata('org.Hs.eg.db', ont=ontology)
finalmat <- NULL
for (i in 1:nrow(go1)) {
mat <- NULL
for (j in 1:nrow(go2)) {
sim <- goSim(go1[i, 1], go2[j, 1], semData=ontData, measure="Wang")
mat <- rbind(mat, c(go1[i, 1],go1[i, 2],go2[j, 1],go2[j, 2],sim))
}
max1.index <- which.max(mat[,5])
max1 <- mat[max1.index, 5]
firstgotermID <- mat[max1.index, 3]
firstgotermTERM <- mat[max1.index, 4]
finalmat <- rbind(finalmat, c(go1[i, 1], go1[i, 2],
firstgotermID, firstgotermTERM, max1))
colnames(finalmat) <- c("start.GO.ID", "start.term",
"end.GO.ID", "end.term",
"similarity.score")
}
OntologyAndDirection <- matrix(,nrow=dim(finalmat)[1], ncol=2)
colnames(OntologyAndDirection) <- c("ontology", "direction")
OntologyAndDirection[,1] <- ontology
OntologyAndDirection[,2] <- direction
return(cbind(OntologyAndDirection, finalmat))
}
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Defines functions comparisonBetweenTwoLists specificOntologyResult
## Class declaration
###############################################################################
setClass("GOsets", contains="EnrichedSets")
## Generics declaration (getters, setters and methods)
###############################################################################
setGeneric("GOComparison", signature="object",
function(object) standardGeneric("GOComparison"))
## Implementation of getters
###############################################################################
## Methods implementation
###############################################################################
setMethod("Radar", "GOsets",
function(object, outputformat="on screen",
n.nodes.1stlevel="5", n.nodes.2ndlevel="5", mult.cor=TRUE,
ontology="MF") {
pvalList1stlevel <- NULL
pvalList2ndlevel <- NULL
if (outputformat == "pdf") pdf(file="Radar.pdf")
if (outputformat == "postscript") postscript(file="Radar.ps")
if (outputformat == "jpeg")
jpeg(filename="Radar.jpeg", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (outputformat == "png")
png(filename="Radar.png", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (length(unique(enriched.table(object)[,1])) == 1 ) {
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher") ]
}
else {
# take the rows relevant only to the selected ontology
index <- apply(enriched.table(object), 1,
function(row) all(ontology %in% row))
Atable <- enriched.table(object)[index,
c("level", "GO.ID", "term", "pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[index,
c("level", "GO.ID", "term", "pv.fisher")]
}
indexfirst <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- Atable[indexfirst, -c(1) ]
List2ndlevel <- Atable[indexsecond, -c(1)]
uniquelist <- unique(c(List1stlevel[1:n.nodes.1stlevel,"GO.ID"],
List2ndlevel[1:n.nodes.2ndlevel,"GO.ID"]))
uniquelistTerms <- unique(c(List1stlevel[1:n.nodes.1stlevel,"term"],
List2ndlevel[1:n.nodes.2ndlevel,"term"]))
uniquelist <- uniquelist[!is.na(uniquelist)]
uniquelistTerms <- uniquelistTerms[!is.na(uniquelistTerms)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("One of the lists is empty!")
}
else {
for(i in 1:length(uniquelist)) {
print(uniquelist[i])
print(uniquelistTerms[i])
if ((uniquelist[i] %in% List1stlevel[,"GO.ID"]) == TRUE) {
pvalList1stlevel <- c(pvalList1stlevel, List1stlevel[
which(List1stlevel[,"GO.ID"] == uniquelist[i]),
3])
}
else {
pvalList1stlevel <- c(pvalList1stlevel, 1)
}
if ((uniquelist[i] %in% List2ndlevel[,"GO.ID"]) == TRUE) {
pvalList2ndlevel <- c(pvalList2ndlevel, List2ndlevel[
which(List2ndlevel[,"GO.ID"]==uniquelist[i]),
3])
}
else {
pvalList2ndlevel <- c(pvalList2ndlevel, 1)
}
}
}
matrix <- matrix(c(-log(as.numeric(pvalList1stlevel), base=10),
-log(as.numeric(pvalList2ndlevel), base=10)),
nrow=2, byrow=TRUE)
print(matrix)
if ((sum(matrix == 0)) == (nrow(matrix) * ncol(matrix))) {
print("There are no significant enriched terms in both levels.")
print("Try to set mult.cor to FALSE.")
}
else {
par(fig=c(0, 1, 0, 1), mar=c(8, 8, 8, 8), mgp=c(2, 0.75, 0))
radial.plot(matrix, labels=uniquelistTerms, rp.type="p",
grid.unit="-log10 p-value", line.col=c("steelblue3","gold1"),
show.grid.labels=3, lwd=3, start=1,
point.symbols=18, point.col="black")
legend("topleft", c(label.level.enriched(object)[1],
label.level.enriched(object)[2]),
fill=c("steelblue3", "gold1"), bty="n")
}
# if a file device is open, close it.
if (!(outputformat == "on screen")) dev.off()
}
)
setMethod("Heatmap", "GOsets",
function(object, outputformat="on screen",
n.nodes.1stlevel="5", n.nodes.2ndlevel="5", mult.cor=TRUE,
ontology="MF") {
pvalList1stlevel <- NULL
pvalList2ndlevel <- NULL
if (outputformat == "pdf") pdf(file="GO.Heatmap.pdf")
if (outputformat =="postscript") postscript(file="GO.Heatmap.ps")
if (outputformat == "jpeg")
jpeg(filename="GO.Heatmap.jpeg", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (outputformat == "png")
png(filename="GO.Heatmap.png", width = 650, height = 500, units = "px",
pointsize = 12, bg = "transparent")
if (length(unique(enriched.table(object)[,1])) == 1 ) {
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[,c("level", "GO.ID",
"term", "pv.fisher") ]
}
else {
# take the rows relevant only to the selected ontology
index <- apply(enriched.table(object), 1,
function(row) all(ontology %in% row))
Atable <- enriched.table(object)[index,
c("level","GO.ID","term","pv.fisher.BH")]
if (!mult.cor)
Atable <- enriched.table(object)[index,
c("level","GO.ID","term","pv.fisher")]
}
indexfirst <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(Atable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- Atable[indexfirst, -c(1) ]
List2ndlevel <- Atable[indexsecond, -c(1)]
uniquelist <- unique(c(List1stlevel[1:n.nodes.1stlevel, "GO.ID"],
List2ndlevel[1:n.nodes.2ndlevel, "GO.ID"]))
uniquelistTerms <- unique(c(List1stlevel[1:n.nodes.1stlevel, "term"],
List2ndlevel[1:n.nodes.2ndlevel, "term"]))
uniquelist <- uniquelist[!is.na(uniquelist)]
uniquelistTerms <- uniquelistTerms[!is.na(uniquelistTerms)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("One of the lists is empty!")
}
else {
for(i in 1:length(uniquelist)) {
print(uniquelist[i])
print(uniquelistTerms[i])
if ((uniquelist[i] %in% List1stlevel[,"GO.ID"]) == TRUE) {
pvalList1stlevel <- c(pvalList1stlevel, List1stlevel[
which(List1stlevel[,"GO.ID"]==uniquelist[i]),
3])
}
else {
pvalList1stlevel <- c(pvalList1stlevel, 1)
}
if ((uniquelist[i] %in% List2ndlevel[,"GO.ID"]) == TRUE) {
pvalList2ndlevel <- c(pvalList2ndlevel, List2ndlevel[
which(List2ndlevel[,"GO.ID"]==uniquelist[i]),
3])
}
else {
pvalList2ndlevel <- c(pvalList2ndlevel, 1)
}
}
}
matrix <- matrix(c(-log(as.numeric(pvalList1stlevel), base=10),
-log(as.numeric(pvalList2ndlevel), base=10)),
ncol=2)
print(matrix)
print(dim(matrix))
print(dim(uniquelistTerms))
if ((sum(matrix == 0)) == (nrow(matrix) * ncol(matrix))) {
print("There are no significant enriched terms in both levels.")
print("Try to set mult.cor to FALSE.")
}
else {
rownames(matrix) <- uniquelistTerms
colnames(matrix) <- c(label.level.enriched(object)[1],
label.level.enriched(object)[2])
print(matrix)
heatmap.2(matrix, col = RGBColVec(50)[c(26:50)], key=TRUE,
margins = c(7,20), keysize=1.5, denscol="white", na.rm = TRUE,
scale="none", dendrogram="both", trace="none",
Colv=TRUE, Rowv=TRUE, labRow=NULL, labCol=NULL,
cexRow=1, cexCol=1)
}
# if a file device is open, close it.
if (!(outputformat == "on screen")) dev.off()
}
)
setMethod("GOComparison", "GOsets",
function(object) {
resulttable <- NULL
# identity - stays the same for both of the cases
# first find the duplicates, then when encountering that duplicate
# check wether it is already covered,
# if not, leave that row as it is, put the label "both levels"
# and put it in "coveredDuplicates",
# if it is already covered mark it for deletion
Atable <- enriched.table(object)[,c("ontology", "level", "GO.ID", "term")]
duplicates <- Atable[duplicated(Atable[,"GO.ID"]), "GO.ID"]
Atable$level <- as.character(Atable$level)
coveredDuplicates <- c()
rowsForDeletion <- c()
for (i in 1:nrow(Atable)) {
if (any(duplicates == Atable[i, "GO.ID"])) {
if (all(coveredDuplicates != Atable[i, "GO.ID"])) {
Atable[i,"level"] <- "both levels"
coveredDuplicates <- c(coveredDuplicates, Atable[i,"GO.ID"])
}
else {
rowsForDeletion <- c(rowsForDeletion, i)
}
}
else {
Atable[i,"level"] <- paste(Atable[i,"level"],"only")
}
}
Atable <- Atable[-c(rowsForDeletion),]
if (length(unique(enriched.table(object)[,1])) == 1 ) {
Btable <- enriched.table(object)[,c("level","GO.ID","term")]
ontology <- as.character(unique(enriched.table(object)[,1]))
indexfirst <- apply(Btable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(Btable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- Btable[indexfirst,-c(1)]
List2ndlevel <- Btable[indexsecond,-c(1)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("One of the lists is empty!")
}
else {
resulttable1to2 <- comparisonBetweenTwoLists(List1stlevel,
List2ndlevel, ontology,
paste(label.level.enriched(object)[1], " to ",
label.level.enriched(object)[2]))
resulttable2to1 <- comparisonBetweenTwoLists(List2ndlevel,
List1stlevel, ontology,
paste(label.level.enriched(object)[2], " to ",
label.level.enriched(object)[1]))
#bind the two result tables
Similarity.Matrix <- rbind(resulttable1to2, resulttable2to1)
totalsimilarity <- c(mean(c(as.numeric(resulttable1to2[,7]),
as.numeric(resulttable2to1[,7]))))
names(totalsimilarity) <- c(
as.character(unique(enriched.table(object)[,1])))
}
}
else {
ontologyCC <- specificOntologyResult(object, "CC")
ontologyMF <- specificOntologyResult(object, "MF")
ontologyBP <- specificOntologyResult(object, "BP")
totalsimilarity <- c(mean(c(as.numeric(ontologyCC$result1[,7]),
as.numeric(ontologyCC$result2[,7]))),
mean(c(as.numeric(ontologyMF$result1[,7]),
as.numeric(ontologyMF$result2[,7]))),
mean(c(as.numeric(ontologyBP$result1[,7]),
as.numeric(ontologyBP$result2[,7]))))
names(totalsimilarity) <- c("CC","MF","BP")
Similarity.Matrix <- rbind(ontologyCC$result1, ontologyCC$result2,
ontologyMF$result1, ontologyMF$result2,
ontologyBP$result1, ontologyBP$result2)
}
# return the obtained results table
return(new("GOsims",
similarity.matrix = Similarity.Matrix,
identity.matrix = as.matrix(Atable),
average.similarity.scores = totalsimilarity))
}
)
## Helper functions
###############################################################################
specificOntologyResult <- function(object, ontology) {
index <- apply(enriched.table(object), 1,
function(row) all(ontology %in% row))
ontologyTable <- enriched.table(object)[index,c("level", "GO.ID", "term") ]
indexfirst <- apply(ontologyTable, 1,
function(row) all(label.level.enriched(object)[1] %in% row))
indexsecond <- apply(ontologyTable, 1,
function(row) all(label.level.enriched(object)[2] %in% row))
List1stlevel <- ontologyTable[indexfirst, -c(1)]
List2ndlevel <- ontologyTable[indexsecond, -c(1)]
if (length(List1stlevel[,1]) == 0 | length(List2ndlevel[,1]) == 0) {
print("There aren't enough BP GO enriched terms in one of the levels!")
}
else {
resulttable1to2 <- comparisonBetweenTwoLists(List1stlevel, List2ndlevel,
ontology, paste(label.level.enriched(object)[1], " to ",
label.level.enriched(object)[2]))
resulttable2to1 <- comparisonBetweenTwoLists(List2ndlevel, List1stlevel,
ontology, paste(label.level.enriched(object)[2], " to ",
label.level.enriched(object)[1]))
return(list(result1 = resulttable1to2, result2 = resulttable1to2))
}
}
comparisonBetweenTwoLists <- function(go1,go2,ontology,direction) {
ontData <- godata('org.Hs.eg.db', ont=ontology)
finalmat <- NULL
for (i in 1:nrow(go1)) {
mat <- NULL
for (j in 1:nrow(go2)) {
sim <- goSim(go1[i, 1], go2[j, 1], semData=ontData, measure="Wang")
mat <- rbind(mat, c(go1[i, 1],go1[i, 2],go2[j, 1],go2[j, 2],sim))
}
max1.index <- which.max(mat[,5])
max1 <- mat[max1.index, 5]
firstgotermID <- mat[max1.index, 3]
firstgotermTERM <- mat[max1.index, 4]
finalmat <- rbind(finalmat, c(go1[i, 1], go1[i, 2],
firstgotermID, firstgotermTERM, max1))
colnames(finalmat) <- c("start.GO.ID", "start.term",
"end.GO.ID", "end.term",
"similarity.score")
}
OntologyAndDirection <- matrix(,nrow=dim(finalmat)[1], ncol=2)
colnames(OntologyAndDirection) <- c("ontology", "direction")
OntologyAndDirection[,1] <- ontology
OntologyAndDirection[,2] <- direction
return(cbind(OntologyAndDirection, finalmat))
}
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