In bhklab/MetaGxOvarian: Transcriptomic Ovarian Cancer Datasets
library(xtable)
Installing the Package
The MetaGxOvarian package is a compendium of Ovarian Cancer datasets.
The package is publicly available and can be installed from Bioconductor into R version 3.6.0 or higher.
To install the MetaGxOvarian package from Bioconductor:
if (!requireNamespace("BiocManager", quietly = TRUE))
install.packages("BiocManager")
BiocManager::install("MetaGxOvarian")
Loading Datasets
First we load the MetaGxOvarian package into the workspace.
To load the packages into R, please use the following commands:
library(MetaGxOvarian)
esets <- MetaGxOvarian::loadOvarianEsets()[[1]]
This will load 26 expression datasets. Users can modify the parameters of the
function to restrict datasets that do not meet certain criteria for loading.
Some example parameters are shown below:
keepCommonOnly: Retain only genes that are common across all platforms loaded (default = FALSE)minSampleSize: Retain studies with a minimum sample size (default = 0)minNumberGenes: Retain studies with a minimum number of genes (default = 0)minNUmberEvents: Retain studies with a minimum number of survival events (default = 0)removeDuplicates: Remove duplicate samples (default = TRUE)
Obtaining Sample Counts in Datasets
numSamples <- vapply(seq_along(esets), FUN=function(i, esets) {
length(sampleNames(esets[[i]]))
}, numeric(1), esets=esets)
SampleNumberSummaryAll <- data.frame(NumberOfSamples = numSamples,
row.names = names(esets))
total <- sum(SampleNumberSummaryAll[,"NumberOfSamples"])
SampleNumberSummaryAll <- rbind(SampleNumberSummaryAll, total)
rownames(SampleNumberSummaryAll)[nrow(SampleNumberSummaryAll)] <- "Total"
xtable(SampleNumberSummaryAll, digits = 2)
Access Phenotype Data
We can also obtain a summary of the phenotype data (pData) for each expression dataset.
Here, we assess the proportion of samples in every datasets that contain a specific pData variable.
pDataID <- c("sample_type", "histological_type", "primarysite", "summarygrade",
"summarystage", "tumorstage", "grade",
"age_at_initial_pathologic_diagnosis", "pltx", "tax",
"neo", "days_to_tumor_recurrence", "recurrence_status",
"days_to_death", "vital_status")
pDataPercentSummaryTable <- NULL
pDataSummaryNumbersTable <- NULL
pDataSummaryNumbersList = lapply(esets, function(x)
vapply(pDataID, function(y) sum(!is.na(pData(x)[,y])), numeric(1)))
pDataPercentSummaryList = lapply(esets, function(x)
vapply(pDataID, function(y)
sum(!is.na(pData(x)[,y]))/nrow(pData(x)), numeric(1))*100)
pDataSummaryNumbersTable = sapply(pDataSummaryNumbersList, function(x) x)
pDataPercentSummaryTable = sapply(pDataPercentSummaryList, function(x) x)
rownames(pDataSummaryNumbersTable) <- pDataID
rownames(pDataPercentSummaryTable) <- pDataID
colnames(pDataSummaryNumbersTable) <- names(esets)
colnames(pDataPercentSummaryTable) <- names(esets)
pDataSummaryNumbersTable <- rbind(pDataSummaryNumbersTable, total)
rownames(pDataSummaryNumbersTable)[nrow(pDataSummaryNumbersTable)] <- "Total"
# Generate a heatmap representation of the pData
pDataPercentSummaryTable<-t(pDataPercentSummaryTable)
pDataPercentSummaryTable<-cbind(Name=(rownames(pDataPercentSummaryTable))
,pDataPercentSummaryTable)
nba<-pDataPercentSummaryTable
gradient_colors = c("#ffffff","#ffffd9","#edf8b1","#c7e9b4","#7fcdbb",
"#41b6c4","#1d91c0","#225ea8","#253494","#081d58")
library(lattice)
nbamat<-as.matrix(nba)
rownames(nbamat)<-nbamat[,1]
nbamat<-nbamat[,-1]
Interval<-as.numeric(c(10,20,30,40,50,60,70,80,90,100))
levelplot(nbamat,col.regions=gradient_colors,
main="Available Clinical Annotation",
scales=list(x=list(rot=90, cex=0.5),
y= list(cex=0.5),key=list(cex=0.2)),
at=seq(from=0,to=100,length=10),
cex=0.2, ylab="", xlab="", lattice.options=list(),
colorkey=list(at=as.numeric(factor(c(seq(from=0, to=100, by=10)))),
labels=as.character(c( "0","10%","20%","30%", "40%","50%",
"60%", "70%", "80%","90%", "100%"),
cex=0.2,font=1,col="brown",height=1,
width=1.4), col=(gradient_colors)))
Session Info
sessionInfo()
bhklab/MetaGxOvarian documentation built on Aug. 14, 2021, 1:59 p.m.
R Package Documentation
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library(xtable)
Installing the Package
The MetaGxOvarian package is a compendium of Ovarian Cancer datasets. The package is publicly available and can be installed from Bioconductor into R version 3.6.0 or higher.
To install the MetaGxOvarian package from Bioconductor:
if (!requireNamespace("BiocManager", quietly = TRUE)) install.packages("BiocManager") BiocManager::install("MetaGxOvarian")
Loading Datasets
First we load the MetaGxOvarian package into the workspace.
To load the packages into R, please use the following commands:
library(MetaGxOvarian) esets <- MetaGxOvarian::loadOvarianEsets()[[1]]
This will load 26 expression datasets. Users can modify the parameters of the function to restrict datasets that do not meet certain criteria for loading. Some example parameters are shown below:
keepCommonOnly: Retain only genes that are common across all platforms loaded (default = FALSE)minSampleSize: Retain studies with a minimum sample size (default = 0)minNumberGenes: Retain studies with a minimum number of genes (default = 0)minNUmberEvents: Retain studies with a minimum number of survival events (default = 0)removeDuplicates: Remove duplicate samples (default = TRUE)
Obtaining Sample Counts in Datasets
numSamples <- vapply(seq_along(esets), FUN=function(i, esets) { length(sampleNames(esets[[i]])) }, numeric(1), esets=esets) SampleNumberSummaryAll <- data.frame(NumberOfSamples = numSamples, row.names = names(esets)) total <- sum(SampleNumberSummaryAll[,"NumberOfSamples"]) SampleNumberSummaryAll <- rbind(SampleNumberSummaryAll, total) rownames(SampleNumberSummaryAll)[nrow(SampleNumberSummaryAll)] <- "Total" xtable(SampleNumberSummaryAll, digits = 2)
Access Phenotype Data
We can also obtain a summary of the phenotype data (pData) for each expression dataset. Here, we assess the proportion of samples in every datasets that contain a specific pData variable.
pDataID <- c("sample_type", "histological_type", "primarysite", "summarygrade", "summarystage", "tumorstage", "grade", "age_at_initial_pathologic_diagnosis", "pltx", "tax", "neo", "days_to_tumor_recurrence", "recurrence_status", "days_to_death", "vital_status") pDataPercentSummaryTable <- NULL pDataSummaryNumbersTable <- NULL pDataSummaryNumbersList = lapply(esets, function(x) vapply(pDataID, function(y) sum(!is.na(pData(x)[,y])), numeric(1))) pDataPercentSummaryList = lapply(esets, function(x) vapply(pDataID, function(y) sum(!is.na(pData(x)[,y]))/nrow(pData(x)), numeric(1))*100) pDataSummaryNumbersTable = sapply(pDataSummaryNumbersList, function(x) x) pDataPercentSummaryTable = sapply(pDataPercentSummaryList, function(x) x) rownames(pDataSummaryNumbersTable) <- pDataID rownames(pDataPercentSummaryTable) <- pDataID colnames(pDataSummaryNumbersTable) <- names(esets) colnames(pDataPercentSummaryTable) <- names(esets) pDataSummaryNumbersTable <- rbind(pDataSummaryNumbersTable, total) rownames(pDataSummaryNumbersTable)[nrow(pDataSummaryNumbersTable)] <- "Total" # Generate a heatmap representation of the pData pDataPercentSummaryTable<-t(pDataPercentSummaryTable) pDataPercentSummaryTable<-cbind(Name=(rownames(pDataPercentSummaryTable)) ,pDataPercentSummaryTable) nba<-pDataPercentSummaryTable gradient_colors = c("#ffffff","#ffffd9","#edf8b1","#c7e9b4","#7fcdbb", "#41b6c4","#1d91c0","#225ea8","#253494","#081d58") library(lattice) nbamat<-as.matrix(nba) rownames(nbamat)<-nbamat[,1] nbamat<-nbamat[,-1] Interval<-as.numeric(c(10,20,30,40,50,60,70,80,90,100)) levelplot(nbamat,col.regions=gradient_colors, main="Available Clinical Annotation", scales=list(x=list(rot=90, cex=0.5), y= list(cex=0.5),key=list(cex=0.2)), at=seq(from=0,to=100,length=10), cex=0.2, ylab="", xlab="", lattice.options=list(), colorkey=list(at=as.numeric(factor(c(seq(from=0, to=100, by=10)))), labels=as.character(c( "0","10%","20%","30%", "40%","50%", "60%", "70%", "80%","90%", "100%"), cex=0.2,font=1,col="brown",height=1, width=1.4), col=(gradient_colors)))
Session Info
sessionInfo()
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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