aracne2regulon4cnv: Regulon object generation from ARACNe results corrected by...
In chrischen1/viper_copy: Virtual Inference of Protein-activity by Enriched Regulon analysis
Description
Usage
Arguments
Value
See Also
Examples
Description
This function generates a regulon object from ARACNe results and the corresponding expression dataset when correction for CNV have been applied
Usage
1
2
aracne2regulon4cnv(afile, eset, regeset, gene = FALSE, format = c("adj",
"3col"), verbose = TRUE)
Arguments
afile
Character string indicating the name of the ARACNe network file
eset
Either a character string indicating the name of the expression-dataset file, a ExpressionSet object or a gene expression matrix with genes (probes) in rows and samples in columns, where the expression was corrected by CNV
regeset
Either a character string indicating the name of the expression-dataset file, a ExpressionSet object or a gene expression matrix with genes (probes) in rows and samples in columns
gene
Logical, whether the probes should be collapsed at the gene level
format
Character string, indicating the format of the aracne file, either adj for adjacency matrixes generated by aracne, or 3col when the interactome is represented by a 3 columns text file, with regulator in the first column, target in the second and mutual information in the third column
verbose
Logical, whether progression messages should be printed in the terminal.
Value
Regulon object
See Also
Examples
1
2
3
4
data(bcellViper, package="bcellViper")
adjfile <- file.path(find.package("bcellViper"), "aracne", "bcellaracne.adj")
regul <- aracne2regulon(adjfile, dset)
print(regul)
chrischen1/viper_copy documentation built on May 13, 2019, 6:52 p.m.
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.
Description Usage Arguments Value See Also Examples
Description
This function generates a regulon object from ARACNe results and the corresponding expression dataset when correction for CNV have been applied
Usage
1 2 | aracne2regulon4cnv(afile, eset, regeset, gene = FALSE, format = c("adj",
"3col"), verbose = TRUE)
|
Arguments
afile |
Character string indicating the name of the ARACNe network file |
eset |
Either a character string indicating the name of the expression-dataset file, a ExpressionSet object or a gene expression matrix with genes (probes) in rows and samples in columns, where the expression was corrected by CNV |
regeset |
Either a character string indicating the name of the expression-dataset file, a ExpressionSet object or a gene expression matrix with genes (probes) in rows and samples in columns |
gene |
Logical, whether the probes should be collapsed at the gene level |
format |
Character string, indicating the format of the aracne file, either adj for adjacency matrixes generated by aracne, or 3col when the interactome is represented by a 3 columns text file, with regulator in the first column, target in the second and mutual information in the third column |
verbose |
Logical, whether progression messages should be printed in the terminal. |
Value
Regulon object
See Also
Examples
1 2 3 4 | data(bcellViper, package="bcellViper")
adjfile <- file.path(find.package("bcellViper"), "aracne", "bcellaracne.adj")
regul <- aracne2regulon(adjfile, dset)
print(regul)
|
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.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.