R/gs_simplify.R
In federicomarini/GeneTonic: Enjoy Analyzing And Integrating The Results From Differential Expression Analysis And Functional Enrichment Analysis
Defines functions
gs_simplify
Documented in
gs_simplify
#' Simplify results from functional enrichment analysis
#'
#' Simplify results from functional enrichment analysis, removing genesets that
#' are redundant to enhance interpretation of the results
#'
#' @param res_enrich A `data.frame` object, storing the result of the functional
#' enrichment analysis. See more in the main function, [GeneTonic()], to check the
#' formatting requirements (a minimal set of columns should be present).
#' @param gs_overlap Numeric value, which defines the threshold for removing
#' terms that present an overlap greater than the specified value. Changing its
#' value can control the granularity of how redundant terms are removed from the
#' original `res_enrich` for the next steps, e.g. plotting this via [gs_volcano()]
#'
#' @return A `data.frame` with a subset of the original gene sets
#'
#' @seealso [gs_volcano()] and [ggs_graph()] can e.g. show an overview on the
#' simplified table of gene sets
#'
#' @export
#'
#' @examples
#'
#' # res_enrich object
#' data(res_enrich_macrophage, package = "GeneTonic")
#' res_enrich <- shake_topGOtableResult(topgoDE_macrophage_IFNg_vs_naive)
#'
#' dim(res_enrich)
#' res_enrich_simplified <- gs_simplify(res_enrich)
#' dim(res_enrich_simplified)
#' # and then use this further for all other functions expecting a res_enrich
gs_simplify <- function(res_enrich,
gs_overlap = 0.75) {
genelists <- lapply(seq_len(nrow(res_enrich)), function(gs) {
cur_set <- res_enrich[["gs_genes"]][gs]
gene_vec <- unlist(strsplit(cur_set, ","))
})
names(genelists) <- res_enrich[["gs_id"]]
ol_mat <- matrix(0, nrow(res_enrich), nrow(res_enrich),
dimnames = list(
res_enrich[["gs_description"]],
res_enrich[["gs_description"]]
)
)
N <- nrow(res_enrich)
for (i in seq_len(N)) {
for (j in seq_len(N)) {
genes_i <- genelists[[i]]
genes_j <- genelists[[j]]
ol_mat[i, j] <- round(sum(genes_i %in% genes_j) / length(genes_i), digits = 3)
}
}
ol_mat2 <- ol_mat
ol_mat2[upper.tri(ol_mat2)] <- 0
for (j in seq_len(N)) {
idx <- which(ol_mat2[, j] > gs_overlap)
sel_col <- setdiff(idx, j)
ol_mat2[, sel_col] <- 0
}
res_enrich_mod <- res_enrich[colSums(ol_mat2) != 0, ]
return(res_enrich_mod)
}
federicomarini/GeneTonic documentation built on March 27, 2024, 4:19 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.
Defines functions gs_simplify
Documented in gs_simplify
#' Simplify results from functional enrichment analysis
#'
#' Simplify results from functional enrichment analysis, removing genesets that
#' are redundant to enhance interpretation of the results
#'
#' @param res_enrich A `data.frame` object, storing the result of the functional
#' enrichment analysis. See more in the main function, [GeneTonic()], to check the
#' formatting requirements (a minimal set of columns should be present).
#' @param gs_overlap Numeric value, which defines the threshold for removing
#' terms that present an overlap greater than the specified value. Changing its
#' value can control the granularity of how redundant terms are removed from the
#' original `res_enrich` for the next steps, e.g. plotting this via [gs_volcano()]
#'
#' @return A `data.frame` with a subset of the original gene sets
#'
#' @seealso [gs_volcano()] and [ggs_graph()] can e.g. show an overview on the
#' simplified table of gene sets
#'
#' @export
#'
#' @examples
#'
#' # res_enrich object
#' data(res_enrich_macrophage, package = "GeneTonic")
#' res_enrich <- shake_topGOtableResult(topgoDE_macrophage_IFNg_vs_naive)
#'
#' dim(res_enrich)
#' res_enrich_simplified <- gs_simplify(res_enrich)
#' dim(res_enrich_simplified)
#' # and then use this further for all other functions expecting a res_enrich
gs_simplify <- function(res_enrich,
gs_overlap = 0.75) {
genelists <- lapply(seq_len(nrow(res_enrich)), function(gs) {
cur_set <- res_enrich[["gs_genes"]][gs]
gene_vec <- unlist(strsplit(cur_set, ","))
})
names(genelists) <- res_enrich[["gs_id"]]
ol_mat <- matrix(0, nrow(res_enrich), nrow(res_enrich),
dimnames = list(
res_enrich[["gs_description"]],
res_enrich[["gs_description"]]
)
)
N <- nrow(res_enrich)
for (i in seq_len(N)) {
for (j in seq_len(N)) {
genes_i <- genelists[[i]]
genes_j <- genelists[[j]]
ol_mat[i, j] <- round(sum(genes_i %in% genes_j) / length(genes_i), digits = 3)
}
}
ol_mat2 <- ol_mat
ol_mat2[upper.tri(ol_mat2)] <- 0
for (j in seq_len(N)) {
idx <- which(ol_mat2[, j] > gs_overlap)
sel_col <- setdiff(idx, j)
ol_mat2[, sel_col] <- 0
}
res_enrich_mod <- res_enrich[colSums(ol_mat2) != 0, ]
return(res_enrich_mod)
}
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.