| name | chip-seq |
| description | ChIP-seq peak calling and downstream interpretation with MACS3, signal track export, annotation, motif analysis, and differential binding review. |
| tool_type | mixed |
| primary_tool | MACS3 |
ChIP Seq
Version Compatibility
Reference examples assume:
macs3 3.0+
samtools 1.18+
deepTools 3.5+
Before using commands, verify the installed environment:
- CLI:
macs3 --version, samtools --version, bamCoverage --version
- If flags differ, inspect
--help and adapt rather than forcing the example unchanged.
Overview
Use this skill for:
- narrow or broad peak calling
- input-normalized signal tracks
- peak annotation
- motif follow-up
- differential binding review when replicates exist
When To Use This Skill
- the user has aligned ChIP and optional input BAM files
- the deliverable includes peaks, browser tracks, or motif results
- the assay is TF ChIP or histone-mark ChIP and needs standard peak-centric processing
Quick Route
- TF or narrow marks: use narrow peak mode first.
- H3K27me3, H3K36me3, or other broad marks: use
--broad.
- Paired-end BAM: prefer
-f BAMPE.
- No input control: still possible, but report the limitation explicitly.
Progressive Disclosure
Prerequisites
| Requirement | Narrow TF-style | Broad histone-style |
|---|
| usable uniquely mapped reads | >= 10M | >= 20M |
| matched input recommended | yes | yes |
| biological replicates recommended | >= 2 | >= 2 |
Expected Inputs
chip.bam
input.bam when available
- reference genome build
- chromosome sizes if bigWig export is needed
Expected Outputs
results/peaks/sample_peaks.narrowPeak or .broadPeak
results/peaks/sample_summits.bed
results/tracks/sample_treat_pileup.bw
results/annotation/peak_annotation.tsv
qc/chip_qc_summary.tsv
Starter Pattern
macs3 callpeak \
-t chip.bam \
-c input.bam \
-f BAMPE \
-g hs \
-n sample \
-q 0.01 \
--outdir results/peaks
Key Parameters
| Parameter | Typical value | Meaning |
|---|
-f | BAM or BAMPE | paired-end should use BAMPE |
-g | hs, mm, or numeric | effective genome size |
-q | 0.01 or 0.05 | FDR cutoff for narrow peaks |
--broad | broad marks only | broad peak mode |
--broad-cutoff | 0.1 | broad-peak FDR cutoff |
-B --SPMR | enabled for tracks | bedGraph for normalized signal |
Workflow
1. Validate BAMs and replicate structure
Check:
- mapped read counts
- duplicate burden
- whether input control exists
- whether the mark is narrow or broad
2. Call peaks with MACS3
- narrow marks:
-q 0.01 is a good starting point
- broad marks: use
--broad --broad-cutoff 0.1
- paired-end:
-f BAMPE
3. Export signal tracks
Use -B --SPMR, sort the resulting bedGraph, then convert to bigWig for browser use.
4. Annotate and inspect peaks
Map peaks to promoters, gene bodies, or distal intervals and review top loci in a genome browser or track plot.
5. Run motif or differential follow-up
Only after peak quality looks credible and replicate structure supports the downstream question.
Output Artifacts
results/
├── peaks/
│ ├── sample_peaks.narrowPeak
│ ├── sample_summits.bed
│ └── sample_model.r
├── tracks/
│ ├── sample_treat_pileup.bdg
│ └── sample_treat_pileup.bw
└── annotation/
└── peak_annotation.tsv
qc/
└── chip_qc_summary.tsv
Quality Review
- TF ChIP-seq FRiP:
< 0.01 poor
0.01-0.05 usable but weak
> 0.05 generally solid
- Histone broad-mark FRiP often differs; compare within assay type rather than against TF expectations.
- Use replicate concordance when available. Do not trust a single noisy replicate just because peaks were called.
- Check that top peaks occur in plausible loci and not only blacklisted or artifactual regions.
Anti-Patterns
- treating broad and narrow marks with the same peak-calling setup
- calling peaks on unsorted or low-quality BAMs
- presenting motif hits without showing peak quality
- hiding that no input control was available
Related Skills
- ATAC Seq
- Methylation Analysis
- Gene Regulatory Networks
Optional Supplements