gs_volcano: Volcano plot for gene sets

View source: R/gs_volcano.R

gs_volcanoR Documentation

Volcano plot for gene sets

Description

Volcano plot for gene sets, to summarize visually the functional enrichment results

Usage

gs_volcano(
  res_enrich,
  gtl = NULL,
  p_threshold = 0.05,
  color_by = "aggr_score",
  volcano_labels = 10,
  scale_circles = 1,
  gs_ids = NULL,
  plot_title = NULL
)

Arguments

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). This object needs to be processed first by a function such as get_aggrscores() to compute the term-wise z_score or aggr_score, which will be used for plotting

gtl

A GeneTonic-list object, containing in its slots the arguments specified above: dds, res_de, res_enrich, and annotation_obj - the names of the list must be specified following the content they are expecting

p_threshold

Numeric, defines the threshold to be used for filtering the gene sets to display. Defaults to 0.05

color_by

Character specifying the column of res_enrich to be used for coloring the plotted gene sets. Defaults to aggr_score.

volcano_labels

Integer, maximum number of labels for the gene sets to be plotted as labels on the volcano scatter plot.

scale_circles

A numeric value, to define the scaling factor for the circle sizes. Defaults to 1.

gs_ids

Character vector, containing a subset of gs_id as they are available in res_enrich. Lists the gene sets to be labeled.

plot_title

Character string, used as title for the plot. If left NULL, it defaults to a general description of the plot and of the DE contrast

Details

It is also possible to reduce the redundancy of the input res_enrich object, if it is passed in advance to the gs_simplify() function.

Value

A ggplot object

See Also

gs_simplify() can be applied in advance to res_enrich to reduce the redundancy of the displayed gene sets

Examples


library("macrophage")
library("DESeq2")
library("org.Hs.eg.db")
library("AnnotationDbi")

# dds object
data("gse", package = "macrophage")
dds_macrophage <- DESeqDataSet(gse, design = ~ line + condition)
rownames(dds_macrophage) <- substr(rownames(dds_macrophage), 1, 15)
dds_macrophage <- estimateSizeFactors(dds_macrophage)

# annotation object
anno_df <- data.frame(
  gene_id = rownames(dds_macrophage),
  gene_name = mapIds(org.Hs.eg.db,
    keys = rownames(dds_macrophage),
    column = "SYMBOL",
    keytype = "ENSEMBL"
  ),
  stringsAsFactors = FALSE,
  row.names = rownames(dds_macrophage)
)

# res object
data(res_de_macrophage, package = "GeneTonic")
res_de <- res_macrophage_IFNg_vs_naive

# res_enrich object
data(res_enrich_macrophage, package = "GeneTonic")
res_enrich <- shake_topGOtableResult(topgoDE_macrophage_IFNg_vs_naive)
res_enrich <- get_aggrscores(res_enrich, res_de, anno_df)

gs_volcano(res_enrich)

federicomarini/GeneTonic documentation built on Dec. 21, 2024, 10:05 p.m.