| vst.ttest.createRmd {compcodeR} | R Documentation |
.Rmd file containing code to perform differential expression analysis with a t-test after the variance-stabilizing transformation provided in DESeqA function to generate code that can be run to perform differential expression analysis of RNAseq data (comparing two conditions) by applying the variance-stabilizing transformation of the DESeq package followed by differential expression analysis using a t-test. The code is written to a .Rmd file. This function is generally not called by the user, the main interface for performing differential expression analysis is the runDiffExp function.
vst.ttest.createRmd(data.path, result.path, codefile, fit.type)
data.path |
The path to a .rds file containing the |
result.path |
The path to the file where the result object will be saved. |
codefile |
The path to the file where the code will be written. |
fit.type |
The fitting method used to get the dispersion-mean relationship. Possible values are |
For more information about the methods and the interpretation of the parameters, see the DESeq package and the corresponding publications.
The function generates a .Rmd file containing the code for performing the differential expression analysis. This file can be executed using e.g. the knitr package.
Charlotte Soneson
Anders S and Huber W (2010): Differential expression analysis for sequence count data. Genome Biology 11:R106
try(
if (require(DESeq) && require(genefilter)) {
tmpdir <- normalizePath(tempdir(), winslash = "/")
mydata.obj <- generateSyntheticData(dataset = "mydata", n.vars = 1000,
samples.per.cond = 5, n.diffexp = 100,
output.file = file.path(tmpdir, "mydata.rds"))
runDiffExp(data.file = file.path(tmpdir, "mydata.rds"), result.extent = "vst.ttest",
Rmdfunction = "vst.ttest.createRmd",
output.directory = tmpdir, fit.type = "parametric")
})