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R/test_chipapprox.R
In chipenrich: Gene Set Enrichment For ChIP-seq Peak Data
Defines functions
single_chipapprox
test_chipapprox
test_chipapprox = function(geneset,gpw,n_cores) {
# Restrict our genes/weights/peaks to only those genes in the genesets.
# Here, geneset is not all combined, but GOBP, GOCC, etc.
gpw = subset(gpw, gpw$gene_id %in% geneset@all.genes)
# Making the first spline
fitspl = mgcv::gam(peak~s(log10_length,bs='cr'),data=gpw,family="binomial")
gpw$spline = as.numeric(predict(fitspl, gpw, type="terms"))
gpw$fit = as.numeric(fitted(fitspl, gpw, type="terms"))
# No model formula needed.
#model = "peak ~ goterm + spline"
# Run tests. NOTE: If os == 'Windows', n_cores is reset to 1 for this to work
results_list = parallel::mclapply(as.list(ls(geneset@set.gene)), function(go_id) {
single_chipapprox(go_id, geneset, gpw, fitspl, 'chipenrich')
}, mc.cores = n_cores)
# Collapse results into one table
results = Reduce(rbind,results_list)
# Correct for multiple testing
results$FDR = p.adjust(results$P.value, method="BH")
# Create enriched/depleted status column
results$Status = ifelse(results$Effect > 0, 'enriched', 'depleted')
results = results[order(results$P.value),]
return(results)
}
single_chipapprox = function(go_id, geneset, gpw, fitspl, method) {
# Genes in the geneset
go_genes = geneset@set.gene[[go_id]]
# Background genes and the background presence of a peak
b_genes = gpw$gene_id %in% go_genes
sg_go = gpw$peak[b_genes]
# Information about the geneset
r_go_id = go_id
r_go_genes_num = length(go_genes)
r_go_genes_avg_length = mean(gpw$length[b_genes])
# Information about peak genes
go_genes_peak = gpw$gene_id[b_genes][sg_go==1]
r_go_genes_peak = paste(go_genes_peak,collapse=", ")
r_go_genes_peak_num = length(go_genes_peak)
# Small correction for case where every gene in this geneset has a peak.
if (all(as.logical(sg_go))) {
cont_length = quantile(gpw$length,0.0025)
cont_gene = data.frame(
gene_id = "continuity_correction",
length = cont_length,
log10_length = log10(cont_length),
num_peaks = 0,
peak = 0,
stringsAsFactors = FALSE)
cont_gene$spline = as.numeric(predict(fitspl, cont_gene, type="terms"))
cont_gene$fit = 1-1/(1+exp(as.numeric(predict(fitspl, cont_gene, type="terms"))))
if ("mappa" %in% names(gpw)) {
cont_gene$mappa = 1
}
gpw = rbind(gpw,cont_gene)
b_genes = c(b_genes,1)
message(sprintf("Applying correction for geneset %s with %i genes...",go_id,length(go_genes)))
}
data=cbind(gpw,goterm=as.numeric(b_genes))
r_effect = sum(data$goterm*(data$peak-data$fit))
r_pval = pchisq(r_effect^2/sum(data$goterm*data$fit*(1-data$fit)),1,lower.tail=FALSE)
out = data.frame(
"P.value"=r_pval,
"Geneset ID"=r_go_id,
"N Geneset Genes"=r_go_genes_num,
"Geneset Peak Genes"=r_go_genes_peak,
"N Geneset Peak Genes"=r_go_genes_peak_num,
"Effect"=r_effect,
"Odds.Ratio"=exp(r_effect),
"Geneset Avg Gene Length"=r_go_genes_avg_length,
stringsAsFactors = FALSE)
return(out)
}
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chipenrich documentation built on Nov. 8, 2020, 8:11 p.m.
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Defines functions single_chipapprox test_chipapprox
test_chipapprox = function(geneset,gpw,n_cores) {
# Restrict our genes/weights/peaks to only those genes in the genesets.
# Here, geneset is not all combined, but GOBP, GOCC, etc.
gpw = subset(gpw, gpw$gene_id %in% geneset@all.genes)
# Making the first spline
fitspl = mgcv::gam(peak~s(log10_length,bs='cr'),data=gpw,family="binomial")
gpw$spline = as.numeric(predict(fitspl, gpw, type="terms"))
gpw$fit = as.numeric(fitted(fitspl, gpw, type="terms"))
# No model formula needed.
#model = "peak ~ goterm + spline"
# Run tests. NOTE: If os == 'Windows', n_cores is reset to 1 for this to work
results_list = parallel::mclapply(as.list(ls(geneset@set.gene)), function(go_id) {
single_chipapprox(go_id, geneset, gpw, fitspl, 'chipenrich')
}, mc.cores = n_cores)
# Collapse results into one table
results = Reduce(rbind,results_list)
# Correct for multiple testing
results$FDR = p.adjust(results$P.value, method="BH")
# Create enriched/depleted status column
results$Status = ifelse(results$Effect > 0, 'enriched', 'depleted')
results = results[order(results$P.value),]
return(results)
}
single_chipapprox = function(go_id, geneset, gpw, fitspl, method) {
# Genes in the geneset
go_genes = geneset@set.gene[[go_id]]
# Background genes and the background presence of a peak
b_genes = gpw$gene_id %in% go_genes
sg_go = gpw$peak[b_genes]
# Information about the geneset
r_go_id = go_id
r_go_genes_num = length(go_genes)
r_go_genes_avg_length = mean(gpw$length[b_genes])
# Information about peak genes
go_genes_peak = gpw$gene_id[b_genes][sg_go==1]
r_go_genes_peak = paste(go_genes_peak,collapse=", ")
r_go_genes_peak_num = length(go_genes_peak)
# Small correction for case where every gene in this geneset has a peak.
if (all(as.logical(sg_go))) {
cont_length = quantile(gpw$length,0.0025)
cont_gene = data.frame(
gene_id = "continuity_correction",
length = cont_length,
log10_length = log10(cont_length),
num_peaks = 0,
peak = 0,
stringsAsFactors = FALSE)
cont_gene$spline = as.numeric(predict(fitspl, cont_gene, type="terms"))
cont_gene$fit = 1-1/(1+exp(as.numeric(predict(fitspl, cont_gene, type="terms"))))
if ("mappa" %in% names(gpw)) {
cont_gene$mappa = 1
}
gpw = rbind(gpw,cont_gene)
b_genes = c(b_genes,1)
message(sprintf("Applying correction for geneset %s with %i genes...",go_id,length(go_genes)))
}
data=cbind(gpw,goterm=as.numeric(b_genes))
r_effect = sum(data$goterm*(data$peak-data$fit))
r_pval = pchisq(r_effect^2/sum(data$goterm*data$fit*(1-data$fit)),1,lower.tail=FALSE)
out = data.frame(
"P.value"=r_pval,
"Geneset ID"=r_go_id,
"N Geneset Genes"=r_go_genes_num,
"Geneset Peak Genes"=r_go_genes_peak,
"N Geneset Peak Genes"=r_go_genes_peak_num,
"Effect"=r_effect,
"Odds.Ratio"=exp(r_effect),
"Geneset Avg Gene Length"=r_go_genes_avg_length,
stringsAsFactors = FALSE)
return(out)
}
Try the chipenrich package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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