NBPSeq.createRmd: Generate a '.Rmd' file containing code to perform...
In compcodeR: RNAseq data simulation, differential expression analysis and performance comparison of differential expression methods
Description
Usage
Arguments
Details
Value
Author(s)
References
Examples
View source: R/generateRmdCodeDiffExp.R
Description
A function to generate code that can be run to perform differential expression analysis of RNAseq data (comparing two conditions) using NBPSeq. 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.
Usage
1
NBPSeq.createRmd(data.path, result.path, codefile, norm.method, disp.method)
Arguments
data.path
The path to a .rds file containing the compData object that will be used for the differential expression analysis.
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.
norm.method
The between-sample normalization method used to compensate for varying library sizes and composition in the differential expression analysis. The normalization factors are calculated using the calcNormFactors function from the edgeR package. Possible values are "TMM", "RLE", "upperquartile" and "none".
disp.method
The method to use to estimate the dispersion values. Possible values are "NBP" and "NB2".
Details
For more information about the methods and the interpretation of the parameters, see the NBPSeq and edgeR packages and the corresponding publications.
Value
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.
Author(s)
Charlotte Soneson
References
Robinson MD, McCarthy DJ and Smyth GK (2010): edgeR: a Bioconductor package for differential expression analysis of digital gene expression data. Bioinformatics 26, 139-140
Robinson MD and Oshlack A (2010): A scaling normalization method for differential expression analysis of RNA-seq data. Genome Biology 11:R25
Di Y, Schafer DW, Cumbie JS, and Chang JH (2011): The NBP Negative Binomial Model for Assessing Differential Gene Expression from RNA-Seq. Statistical Applications in Genetics and Molecular Biology 10(1), 1-28
Examples
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try(
if (require(NBPSeq)) {
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 = "NBPSeq",
Rmdfunction = "NBPSeq.createRmd",
output.directory = tmpdir, norm.method = "TMM", disp.method = "NBP")
})
compcodeR documentation built on Nov. 10, 2020, 2 a.m.
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Description Usage Arguments Details Value Author(s) References Examples
View source: R/generateRmdCodeDiffExp.R
Description
A function to generate code that can be run to perform differential expression analysis of RNAseq data (comparing two conditions) using NBPSeq. 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.
Usage
1 | NBPSeq.createRmd(data.path, result.path, codefile, norm.method, disp.method)
|
Arguments
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. |
norm.method |
The between-sample normalization method used to compensate for varying library sizes and composition in the differential expression analysis. The normalization factors are calculated using the |
disp.method |
The method to use to estimate the dispersion values. Possible values are |
Details
For more information about the methods and the interpretation of the parameters, see the NBPSeq and edgeR packages and the corresponding publications.
Value
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.
Author(s)
Charlotte Soneson
References
Robinson MD, McCarthy DJ and Smyth GK (2010): edgeR: a Bioconductor package for differential expression analysis of digital gene expression data. Bioinformatics 26, 139-140
Robinson MD and Oshlack A (2010): A scaling normalization method for differential expression analysis of RNA-seq data. Genome Biology 11:R25
Di Y, Schafer DW, Cumbie JS, and Chang JH (2011): The NBP Negative Binomial Model for Assessing Differential Gene Expression from RNA-Seq. Statistical Applications in Genetics and Molecular Biology 10(1), 1-28
Examples
1 2 3 4 5 6 7 8 9 10 | try(
if (require(NBPSeq)) {
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 = "NBPSeq",
Rmdfunction = "NBPSeq.createRmd",
output.directory = tmpdir, norm.method = "TMM", disp.method = "NBP")
})
|
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