run_genie3: Wrapper for GENIE3 method
In dnapath: Differential Network Analysis using Gene Pathways
run_genie3 R Documentation
Wrapper for GENIE3 method
Description
Conducts co-expression analysis using GENIE3 \insertCitehuynhthu10dnapath.
Uses the implementation from the GENIE3 package.
Can be used for the network_inference argument in dnapath.
Usage
run_genie3(x, nTrees = 200, weights = NULL, ...)
Arguments
x
A n by p matrix of gene expression data (n samples and p genes).
nTrees
Argument is passed into GENIE3.
weights
An optional vector of weights. This is used by dnapath() to
apply the probabilistic group labels to each observation when estimating the
group-specific network.
...
Additional arguments are ignored.
Value
A p by p matrix of association scores.
References
\insertRefhuynhthu10dnapath
See Also
run_aracne,
run_bc3net, run_c3net,
run_clr, run_corr,
run_dwlasso,
run_glasso, run_mrnet,
run_pcor, and run_silencer
Examples
if(!requireNamespace("GENIE3", quietly = TRUE)) {
data(meso)
data(p53_pathways)
# To create a short example, we subset on two pathways from the p53 pathway list,
# and will only run 5 permutations for significance testing.
pathway_list <- p53_pathways[c(8, 13)]
n_perm <- 5
# Use this method to perform differential network analysis.
# The parameters in run_genie3() can be adjusted using the ... argument.
# For example, the 'nTrees' parameter can be specified as shown here.
results <- dnapath(x = meso$gene_expression,
pathway_list = pathway_list,
group_labels = meso$groups,
n_perm = n_perm,
network_inference = run_genie3,
nTrees = 100)
summary(results)
# The group-specific association matrices can be extracted using get_networks().
nw_list <- get_networks(results[[1]]) # Get networks for pathway 1.
# nw_list has length 2 and contains the inferred networks for the two groups.
# The gene names are the Entrezgene IDs from the original expression dataset.
# Renaming the genes in the dnapath results to rename those in the networks.
# NOTE: The temporary directory, tempdir(), is used in this example. In practice,
# this argument can be removed or changed to an existing directory
results <- rename_genes(results, to = "symbol", species = "human",
dir_save = tempdir())
nw_list <- get_networks(results[[1]]) # The genes (columns) will have new names.
# (Optional) Plot the network using SeqNet package (based on igraph plotting).
# First rename entrezgene IDs into gene symbols.
SeqNet::plot_network(nw_list[[1]])
}
dnapath documentation built on May 9, 2022, 9:05 a.m.
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| run_genie3 | R Documentation |
Wrapper for GENIE3 method
Description
Conducts co-expression analysis using GENIE3 \insertCitehuynhthu10dnapath.
Uses the implementation from the GENIE3 package.
Can be used for the network_inference argument in dnapath.
Usage
run_genie3(x, nTrees = 200, weights = NULL, ...)
Arguments
x |
A n by p matrix of gene expression data (n samples and p genes). |
nTrees |
Argument is passed into |
weights |
An optional vector of weights. This is used by |
... |
Additional arguments are ignored. |
Value
A p by p matrix of association scores.
References
\insertRefhuynhthu10dnapath
See Also
run_aracne,
run_bc3net, run_c3net,
run_clr, run_corr,
run_dwlasso,
run_glasso, run_mrnet,
run_pcor, and run_silencer
Examples
if(!requireNamespace("GENIE3", quietly = TRUE)) {
data(meso)
data(p53_pathways)
# To create a short example, we subset on two pathways from the p53 pathway list,
# and will only run 5 permutations for significance testing.
pathway_list <- p53_pathways[c(8, 13)]
n_perm <- 5
# Use this method to perform differential network analysis.
# The parameters in run_genie3() can be adjusted using the ... argument.
# For example, the 'nTrees' parameter can be specified as shown here.
results <- dnapath(x = meso$gene_expression,
pathway_list = pathway_list,
group_labels = meso$groups,
n_perm = n_perm,
network_inference = run_genie3,
nTrees = 100)
summary(results)
# The group-specific association matrices can be extracted using get_networks().
nw_list <- get_networks(results[[1]]) # Get networks for pathway 1.
# nw_list has length 2 and contains the inferred networks for the two groups.
# The gene names are the Entrezgene IDs from the original expression dataset.
# Renaming the genes in the dnapath results to rename those in the networks.
# NOTE: The temporary directory, tempdir(), is used in this example. In practice,
# this argument can be removed or changed to an existing directory
results <- rename_genes(results, to = "symbol", species = "human",
dir_save = tempdir())
nw_list <- get_networks(results[[1]]) # The genes (columns) will have new names.
# (Optional) Plot the network using SeqNet package (based on igraph plotting).
# First rename entrezgene IDs into gene symbols.
SeqNet::plot_network(nw_list[[1]])
}
R Package Documentation
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