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inst/doc/microarrayAnalysis.R
In ReportingTools: Tools for making reports in various formats
### R code from vignette source 'microarrayAnalysis.Rnw'
###################################################
### code chunk number 1: load ALL data (eval = FALSE)
###################################################
## library(ReportingTools)
## library(ALL)
## library(hgu95av2.db)
## library(genefilter)
##
## data(ALL)
###################################################
### code chunk number 2: filter ALL data (eval = FALSE)
###################################################
## ALL <- ALL[, ALL$mol.biol %in% c('NEG','BCR/ABL') &
## !is.na(ALL$sex)]
## ALL$mol.biol <- factor(ALL$mol.biol,
## levels = c('NEG', 'BCR/ABL'))
## ALL <- featureFilter(ALL)
###################################################
### code chunk number 3: limma linear model (eval = FALSE)
###################################################
## library(limma)
## model <- model.matrix(~mol.biol+sex, ALL)
## fit <- eBayes(lmFit(ALL, model))
###################################################
### code chunk number 4: making the DE report (eval = FALSE)
###################################################
## library(lattice)
## rep.theme <- reporting.theme()
## lattice.options(default.theme = rep.theme)
##
## deReport <- HTMLReport(shortName = 'de_analysis',
## title = 'Analysis of BCR/ABL translocation differential expression',
## reportDirectory = "./reports")
## publish(fit, deReport, eSet=ALL, factor=ALL$mol.biol, coef=2, n=100)
## finish(deReport)
###################################################
### code chunk number 5: making the DE report with new images (eval = FALSE)
###################################################
## library(hwriter)
## makeNewImages <- function(df,...){
## imagename <- c()
## for (i in 1:nrow(df)){
## probeId <- df$ProbeId[i]
## y_at <- pretty(exprs(ALL)[probeId,])
## y_labels <- formatC(y_at, digits = 1, format = 'f')
## imagename[i] <- paste0("plot", probeId, ".png")
## png(filename = paste0("./reports/figuresde_analysis/",
## imagename[i]))
## print(stripplot(exprs(ALL)[probeId,]~ALL$mol.biol|ALL$sex))
## dev.off()
## }
## df$Image <- hwriteImage(paste0("figuresde_analysis/", imagename),
## link=paste0("figuresde_analysis/", imagename),
## table=FALSE, width=100)
## return(df)
## }
## deReport2 <- HTMLReport(shortName='de_analysis2',
## title = 'Analysis of BCR/ABL translocation differential expression with new plots',
## reportDirectory = "./reports")
## publish(fit, deReport2, eSet = ALL, factor = ALL$mol.biol, coef=2,
## n=100,
## ##.modifyDF=list(modifyReportDF, makeNewImages) ) ##to add new images to default RT output
## .modifyDF=makeNewImages)
## finish(deReport2)
###################################################
### code chunk number 6: Do GO analysis (eval = FALSE)
###################################################
## library(GOstats)
## tt <- topTable(fit, coef = 2, n = 100)
## selectedIDs <- unlist(mget(rownames(tt), hgu95av2ENTREZID))
## universeIDs <- unlist(mget(featureNames(ALL), hgu95av2ENTREZID))
## goParams <- new("GOHyperGParams",
## geneIds = selectedIDs,
## universeGeneIds = universeIDs,
## annotation = annotation(ALL),
## ontology = "BP",
## pvalueCutoff = 0.01,
## conditional = TRUE,
## testDirection = "over")
## goResults <- hyperGTest(goParams)
###################################################
### code chunk number 7: make the GO report (eval = FALSE)
###################################################
## goReport <- HTMLReport(shortName = 'go_analysis',
## title = 'GO analysis of BCR/ABL translocation',
## reportDirectory = "./reports")
## publish(goResults, goReport)
## finish(goReport)
###################################################
### code chunk number 8: Do PFAM analysis (eval = FALSE)
###################################################
## library(Category)
## pfamParams <- new("PFAMHyperGParams",
## geneIds = selectedIDs,
## universeGeneIds = universeIDs,
## annotation = annotation(ALL),
## pvalueCutoff = 0.01,
## testDirection = "over")
## PFAMResults <- hyperGTest(pfamParams)
###################################################
### code chunk number 9: make the PFAM report (eval = FALSE)
###################################################
## PFAMReport <- HTMLReport(shortName = 'pfam_analysis',
## title = 'PFAM analysis of BCR/ABL translocation',
## reportDirectory = "./reports")
## publish(PFAMResults, PFAMReport, categorySize = 3)
## finish(PFAMReport)
###################################################
### code chunk number 10: Make Gene Sets (eval = FALSE)
###################################################
## library(GSEAlm)
## library(GSEABase)
## mapped_genes <- mappedkeys(org.Hs.egSYMBOL)
## eidsAndSymbols <- as.list(org.Hs.egSYMBOL[mapped_genes])
## geneEids <- names(eidsAndSymbols)
## set.seed(123)
## set1 <- GeneSet(geneIds=sample(geneEids, 100, replace=FALSE), setName="set1",
## shortDescription = "This is set1")
## set2 <- GeneSet(geneIds=sample(geneEids, 10, replace=FALSE), setName="set2",
## shortDescription = "This is set2")
## set3 <- GeneSet(geneIds=sample(geneEids, 37, replace=FALSE), setName="set3",
## shortDescription = "This is set3")
## set4 <- GeneSet(geneIds=sample(geneEids, 300, replace=FALSE), setName="set4",
## shortDescription = "This is set4")
## geneSets <- GeneSetCollection(c(set1, set2, set3, set4))
###################################################
### code chunk number 11: Make Simple Gene Set Table (eval = FALSE)
###################################################
## geneSetsReport <- HTMLReport(shortName = "gene_sets",
## title = "Gene Sets",
## reportDirectory = "./reports")
## publish(geneSets, geneSetsReport, annotation.db = "org.Hs.eg")
## finish(geneSetsReport)
###################################################
### code chunk number 12: Get incidence matrix (eval = FALSE)
###################################################
## mat <- matrix(data=0, ncol=length(universeIDs),nrow=length(geneSets))
## for(i in 1:length(geneSets)){
## geneIdEntrez <- unlist(geneIds(geneSets[[i]]))
## mat[i,match(geneIdEntrez, universeIDs)] <- 1
## }
## colnames(mat) <- universeIDs
## rownames(mat) <- sapply(geneSets, function(x) x@setName)
###################################################
### code chunk number 13: Run GSEA (eval = FALSE)
###################################################
## lm <- lmPerGene(ALL, ~mol.biol+sex, na.rm=TRUE)
## GSNorm <- GSNormalize(lm$tstat[2,], mat)
## #one-sided p-values
## pVals <- gsealmPerm(ALL,~mol.biol+sex, mat, nperm=100)
## bestPval <- apply(pVals, 1, min)
###################################################
### code chunk number 14: make the GSEA report (eval = FALSE)
###################################################
## gseaReport <- HTMLReport(shortName = "gsea_analysis",
## title = "GSEA analysis",
## reportDirectory = "./reports")
## publish(geneSets, gseaReport, annotation.db = "org.Hs.eg",
## setStats = GSNorm, setPValues = 2*bestPval)
## finish(gseaReport)
###################################################
### code chunk number 15: make the GSEA report with new columns (eval = FALSE)
###################################################
## runGSEA <- function(df,...){
## mat <- matrix(data = 0, ncol = length(universeIDs), nrow = length(geneSets))
## for(i in 1:length(geneSets)){
## geneIdEntrez <- unlist(geneIds(geneSets[[i]]))
## mat[i,match(geneIdEntrez, universeIDs)] <- 1
## }
## colnames(mat) <- universeIDs
## rownames(mat) <- sapply(geneSets, function(x) x@setName)
## lm <- lmPerGene(ALL, ~mol.biol+sex, na.rm=TRUE)
## GSNorm <- GSNormalize(lm$tstat[2,], mat)
## pVals <- gsealmPerm(ALL,~mol.biol+sex, mat, nperm = 100)
## bestPval <- apply(pVals,1, min)
## df <- cbind(df, GSNorm, bestPval)
## return(df)
## }
##
## gseaReport2 <- HTMLReport(shortName = "gsea_analysis2",
## title = "GSEA analysis",
## reportDirectory = "./reports")
## publish(geneSets, gseaReport2, annotation.db = "org.Hs.eg",
## .modifyDF = runGSEA)
## finish(gseaReport2)
###################################################
### code chunk number 16: make the index page (eval = FALSE)
###################################################
## indexPage <- HTMLReport(shortName = "index",
## title = "Analysis of ALL Gene Expression",
## reportDirectory = "./reports")
## publish(Link(list(deReport, goReport), report = indexPage), indexPage)
## publish(Link(PFAMReport, report = indexPage), indexPage)
## publish(Link("GSEA report has a new title", "gsea_analysis.html"), indexPage)
## finish(indexPage)
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ReportingTools documentation built on March 10, 2021, 2 a.m.
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### R code from vignette source 'microarrayAnalysis.Rnw'
###################################################
### code chunk number 1: load ALL data (eval = FALSE)
###################################################
## library(ReportingTools)
## library(ALL)
## library(hgu95av2.db)
## library(genefilter)
##
## data(ALL)
###################################################
### code chunk number 2: filter ALL data (eval = FALSE)
###################################################
## ALL <- ALL[, ALL$mol.biol %in% c('NEG','BCR/ABL') &
## !is.na(ALL$sex)]
## ALL$mol.biol <- factor(ALL$mol.biol,
## levels = c('NEG', 'BCR/ABL'))
## ALL <- featureFilter(ALL)
###################################################
### code chunk number 3: limma linear model (eval = FALSE)
###################################################
## library(limma)
## model <- model.matrix(~mol.biol+sex, ALL)
## fit <- eBayes(lmFit(ALL, model))
###################################################
### code chunk number 4: making the DE report (eval = FALSE)
###################################################
## library(lattice)
## rep.theme <- reporting.theme()
## lattice.options(default.theme = rep.theme)
##
## deReport <- HTMLReport(shortName = 'de_analysis',
## title = 'Analysis of BCR/ABL translocation differential expression',
## reportDirectory = "./reports")
## publish(fit, deReport, eSet=ALL, factor=ALL$mol.biol, coef=2, n=100)
## finish(deReport)
###################################################
### code chunk number 5: making the DE report with new images (eval = FALSE)
###################################################
## library(hwriter)
## makeNewImages <- function(df,...){
## imagename <- c()
## for (i in 1:nrow(df)){
## probeId <- df$ProbeId[i]
## y_at <- pretty(exprs(ALL)[probeId,])
## y_labels <- formatC(y_at, digits = 1, format = 'f')
## imagename[i] <- paste0("plot", probeId, ".png")
## png(filename = paste0("./reports/figuresde_analysis/",
## imagename[i]))
## print(stripplot(exprs(ALL)[probeId,]~ALL$mol.biol|ALL$sex))
## dev.off()
## }
## df$Image <- hwriteImage(paste0("figuresde_analysis/", imagename),
## link=paste0("figuresde_analysis/", imagename),
## table=FALSE, width=100)
## return(df)
## }
## deReport2 <- HTMLReport(shortName='de_analysis2',
## title = 'Analysis of BCR/ABL translocation differential expression with new plots',
## reportDirectory = "./reports")
## publish(fit, deReport2, eSet = ALL, factor = ALL$mol.biol, coef=2,
## n=100,
## ##.modifyDF=list(modifyReportDF, makeNewImages) ) ##to add new images to default RT output
## .modifyDF=makeNewImages)
## finish(deReport2)
###################################################
### code chunk number 6: Do GO analysis (eval = FALSE)
###################################################
## library(GOstats)
## tt <- topTable(fit, coef = 2, n = 100)
## selectedIDs <- unlist(mget(rownames(tt), hgu95av2ENTREZID))
## universeIDs <- unlist(mget(featureNames(ALL), hgu95av2ENTREZID))
## goParams <- new("GOHyperGParams",
## geneIds = selectedIDs,
## universeGeneIds = universeIDs,
## annotation = annotation(ALL),
## ontology = "BP",
## pvalueCutoff = 0.01,
## conditional = TRUE,
## testDirection = "over")
## goResults <- hyperGTest(goParams)
###################################################
### code chunk number 7: make the GO report (eval = FALSE)
###################################################
## goReport <- HTMLReport(shortName = 'go_analysis',
## title = 'GO analysis of BCR/ABL translocation',
## reportDirectory = "./reports")
## publish(goResults, goReport)
## finish(goReport)
###################################################
### code chunk number 8: Do PFAM analysis (eval = FALSE)
###################################################
## library(Category)
## pfamParams <- new("PFAMHyperGParams",
## geneIds = selectedIDs,
## universeGeneIds = universeIDs,
## annotation = annotation(ALL),
## pvalueCutoff = 0.01,
## testDirection = "over")
## PFAMResults <- hyperGTest(pfamParams)
###################################################
### code chunk number 9: make the PFAM report (eval = FALSE)
###################################################
## PFAMReport <- HTMLReport(shortName = 'pfam_analysis',
## title = 'PFAM analysis of BCR/ABL translocation',
## reportDirectory = "./reports")
## publish(PFAMResults, PFAMReport, categorySize = 3)
## finish(PFAMReport)
###################################################
### code chunk number 10: Make Gene Sets (eval = FALSE)
###################################################
## library(GSEAlm)
## library(GSEABase)
## mapped_genes <- mappedkeys(org.Hs.egSYMBOL)
## eidsAndSymbols <- as.list(org.Hs.egSYMBOL[mapped_genes])
## geneEids <- names(eidsAndSymbols)
## set.seed(123)
## set1 <- GeneSet(geneIds=sample(geneEids, 100, replace=FALSE), setName="set1",
## shortDescription = "This is set1")
## set2 <- GeneSet(geneIds=sample(geneEids, 10, replace=FALSE), setName="set2",
## shortDescription = "This is set2")
## set3 <- GeneSet(geneIds=sample(geneEids, 37, replace=FALSE), setName="set3",
## shortDescription = "This is set3")
## set4 <- GeneSet(geneIds=sample(geneEids, 300, replace=FALSE), setName="set4",
## shortDescription = "This is set4")
## geneSets <- GeneSetCollection(c(set1, set2, set3, set4))
###################################################
### code chunk number 11: Make Simple Gene Set Table (eval = FALSE)
###################################################
## geneSetsReport <- HTMLReport(shortName = "gene_sets",
## title = "Gene Sets",
## reportDirectory = "./reports")
## publish(geneSets, geneSetsReport, annotation.db = "org.Hs.eg")
## finish(geneSetsReport)
###################################################
### code chunk number 12: Get incidence matrix (eval = FALSE)
###################################################
## mat <- matrix(data=0, ncol=length(universeIDs),nrow=length(geneSets))
## for(i in 1:length(geneSets)){
## geneIdEntrez <- unlist(geneIds(geneSets[[i]]))
## mat[i,match(geneIdEntrez, universeIDs)] <- 1
## }
## colnames(mat) <- universeIDs
## rownames(mat) <- sapply(geneSets, function(x) x@setName)
###################################################
### code chunk number 13: Run GSEA (eval = FALSE)
###################################################
## lm <- lmPerGene(ALL, ~mol.biol+sex, na.rm=TRUE)
## GSNorm <- GSNormalize(lm$tstat[2,], mat)
## #one-sided p-values
## pVals <- gsealmPerm(ALL,~mol.biol+sex, mat, nperm=100)
## bestPval <- apply(pVals, 1, min)
###################################################
### code chunk number 14: make the GSEA report (eval = FALSE)
###################################################
## gseaReport <- HTMLReport(shortName = "gsea_analysis",
## title = "GSEA analysis",
## reportDirectory = "./reports")
## publish(geneSets, gseaReport, annotation.db = "org.Hs.eg",
## setStats = GSNorm, setPValues = 2*bestPval)
## finish(gseaReport)
###################################################
### code chunk number 15: make the GSEA report with new columns (eval = FALSE)
###################################################
## runGSEA <- function(df,...){
## mat <- matrix(data = 0, ncol = length(universeIDs), nrow = length(geneSets))
## for(i in 1:length(geneSets)){
## geneIdEntrez <- unlist(geneIds(geneSets[[i]]))
## mat[i,match(geneIdEntrez, universeIDs)] <- 1
## }
## colnames(mat) <- universeIDs
## rownames(mat) <- sapply(geneSets, function(x) x@setName)
## lm <- lmPerGene(ALL, ~mol.biol+sex, na.rm=TRUE)
## GSNorm <- GSNormalize(lm$tstat[2,], mat)
## pVals <- gsealmPerm(ALL,~mol.biol+sex, mat, nperm = 100)
## bestPval <- apply(pVals,1, min)
## df <- cbind(df, GSNorm, bestPval)
## return(df)
## }
##
## gseaReport2 <- HTMLReport(shortName = "gsea_analysis2",
## title = "GSEA analysis",
## reportDirectory = "./reports")
## publish(geneSets, gseaReport2, annotation.db = "org.Hs.eg",
## .modifyDF = runGSEA)
## finish(gseaReport2)
###################################################
### code chunk number 16: make the index page (eval = FALSE)
###################################################
## indexPage <- HTMLReport(shortName = "index",
## title = "Analysis of ALL Gene Expression",
## reportDirectory = "./reports")
## publish(Link(list(deReport, goReport), report = indexPage), indexPage)
## publish(Link(PFAMReport, report = indexPage), indexPage)
## publish(Link("GSEA report has a new title", "gsea_analysis.html"), indexPage)
## finish(indexPage)
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R Package Documentation
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