| name | bio-chipseq-peak-annotation |
| description | Annotate ChIP-seq peaks to genomic features and genes using ChIPseeker. Assign peaks to promoters, exons, introns, and intergenic regions. Find nearest genes and calculate distance to TSS. Generate annotation plots and statistics. Use when annotating ChIP-seq peaks to genomic features. |
| tool_type | r |
| primary_tool | ChIPseeker |
Version Compatibility
Reference examples tested with: MACS3 3.0+, clusterProfiler 4.10+
Before using code patterns, verify installed versions match. If versions differ:
- R:
packageVersion('<pkg>') then ?function_name to verify parameters
If code throws ImportError, AttributeError, or TypeError, introspect the installed
package and adapt the example to match the actual API rather than retrying.
Peak Annotation with ChIPseeker
"Annotate my ChIP-seq peaks to genes" → Assign peaks to genomic features (promoter, exon, intron, intergenic), find nearest genes, and calculate TSS distances.
- R:
ChIPseeker::annotatePeak(peaks, TxDb=txdb)
Load Peaks and Annotations
library(ChIPseeker)
library(TxDb.Hsapiens.UCSC.hg38.knownGene)
library(org.Hs.eg.db)
txdb <- TxDb.Hsapiens.UCSC.hg38.knownGene
peaks <- readPeakFile('sample_peaks.narrowPeak')
Annotate Peaks
Goal: Assign each ChIP-seq peak to its nearest gene and genomic feature category.
Approach: Use annotatePeak with a TxDb annotation database to classify peaks as promoter, exon, intron, or intergenic and retrieve the nearest gene symbol.
peak_anno <- annotatePeak(
peaks,
TxDb = txdb,
annoDb = 'org.Hs.eg.db'
)
peak_anno
Custom Promoter Definition
peak_anno <- annotatePeak(
peaks,
TxDb = txdb,
tssRegion = c(-3000, 3000),
annoDb = 'org.Hs.eg.db'
)
Extract Annotated Data Frame
anno_df <- as.data.frame(peak_anno)
head(anno_df)
write.csv(anno_df, 'annotated_peaks.csv', row.names = FALSE)
Get Genes with Peaks in Promoter
promoter_peaks <- anno_df[grep('Promoter', anno_df$annotation), ]
promoter_genes <- unique(promoter_peaks$SYMBOL)
Annotation Pie Chart
plotAnnoPie(peak_anno)
plotAnnoBar(peak_anno)
Distance to TSS Plot
plotDistToTSS(peak_anno, title = 'Distribution of peaks relative to TSS')
Compare Multiple Peak Sets
Goal: Compare genomic feature distributions across multiple ChIP-seq experiments (e.g., different histone marks).
Approach: Read and annotate each peak file separately, then use plotAnnoBar and plotDistToTSS on the annotation list for side-by-side comparison.
peak_files <- list(
H3K4me3 = 'H3K4me3_peaks.narrowPeak',
H3K27ac = 'H3K27ac_peaks.narrowPeak',
H3K27me3 = 'H3K27me3_peaks.broadPeak'
)
peak_list <- lapply(peak_files, readPeakFile)
anno_list <- lapply(peak_list, annotatePeak, TxDb = txdb, annoDb = 'org.Hs.eg.db')
plotAnnoBar(anno_list)
plotDistToTSS(anno_list)
Venn Diagram of Peak Overlap
genes_list <- lapply(anno_list, function(x) as.data.frame(x)$SYMBOL)
vennplot(genes_list)
Coverage Plot
covplot(peaks, weightCol = 'V5')
Profile Heatmap Around TSS
Goal: Visualize the distribution of ChIP-seq signal around transcription start sites.
Approach: Extract promoter regions from the TxDb, build a tag matrix of signal at those regions, and plot as a heatmap or average profile.
promoter <- getPromoters(TxDb = txdb, upstream = 3000, downstream = 3000)
tagMatrix <- getTagMatrix(peaks, windows = promoter)
tagHeatmap(tagMatrix, xlim = c(-3000, 3000), color = 'red')
plotAvgProf(tagMatrix, xlim = c(-3000, 3000), xlab = 'Distance from TSS')
Functional Enrichment of Peak Genes
Goal: Determine which biological processes are enriched among genes with ChIP-seq peaks in their promoters.
Approach: Extract Entrez IDs from annotated peaks and run GO enrichment analysis with clusterProfiler.
library(clusterProfiler)
genes <- unique(anno_df$ENTREZID)
ego <- enrichGO(
gene = genes,
OrgDb = org.Hs.eg.db,
ont = 'BP',
pAdjustMethod = 'BH',
pvalueCutoff = 0.05
)
Seq2Gene - All Genes in Peak Regions
genes_in_peaks <- seq2gene(peaks, tssRegion = c(-1000, 1000), flankDistance = 3000, TxDb = txdb)
Different Organisms
library(TxDb.Mmusculus.UCSC.mm10.knownGene)
library(org.Mm.eg.db)
peak_anno_mm <- annotatePeak(peaks, TxDb = TxDb.Mmusculus.UCSC.mm10.knownGene, annoDb = 'org.Mm.eg.db')
library(TxDb.Drerio.UCSC.danRer11.refGene)
library(org.Dr.eg.db)
Key Functions
| Function | Purpose |
|---|
| readPeakFile | Read peak file (BED, narrowPeak) |
| annotatePeak | Annotate peaks to genes |
| plotAnnoPie | Pie chart of annotations |
| plotAnnoBar | Bar plot of annotations |
| plotDistToTSS | Distance to TSS distribution |
| getPromoters | Get promoter regions |
| getTagMatrix | Coverage matrix around regions |
| tagHeatmap | Heatmap of signal |
| plotAvgProf | Average profile plot |
| seq2gene | Map peaks to all overlapping genes |
Annotation Categories
| Category | Description |
|---|
| Promoter | Within tssRegion of TSS |
| 5' UTR | 5' untranslated region |
| 3' UTR | 3' untranslated region |
| Exon | Coding exon |
| Intron | Intronic region |
| Downstream | Within 3kb downstream |
| Distal Intergenic | Beyond gene regions |
Related Skills
- peak-calling - Generate peak files with MACS3
- differential-binding - Find differential peaks
- pathway-analysis - Functional enrichment
- chipseq-visualization - Additional visualizations