| name | atac-seq |
| description | ATAC-seq processing with assay QC, MACS3 peak calling, consensus peak matrices, differential accessibility, and motif or footprint follow-up. |
| tool_type | mixed |
| primary_tool | MACS3 |
ATAC Seq
Version Compatibility
Reference examples assume:
macs3 3.0+
samtools 1.18+
deepTools 3.5+
Verify the runtime first:
- CLI:
macs3 --version, samtools --version, bamCoverage --version
Overview
Use this skill when the user needs:
- bulk ATAC-seq QC
- peak calling
- accessibility counting
- differential accessibility
- motif deviation or footprint follow-up
When To Use This Skill
- the task is bulk ATAC-seq rather than ChIP-seq
- TSS enrichment, fragment periodicity, or FRiP need review
- the output should include peaks, counts, and downstream accessibility summaries
Quick Route
- paired-end bulk ATAC: use
BAMPE
- call peaks without control using ATAC-specific settings
- if TSS enrichment is poor, stop and flag data quality before interpretation
Progressive Disclosure
Prerequisites
| Check | Guidance |
|---|
| uniquely mapped reads | >= 20M preferred for strong bulk ATAC |
| TSS enrichment | > 7 acceptable, > 10 strong |
| FRiP | > 0.2 often strong for good bulk ATAC |
Expected Inputs
- paired-end ATAC BAM or FASTQ
- reference genome
- sample groups for comparisons
Expected Outputs
results/peaks/sample_peaks.narrowPeak
results/matrix/consensus_peak_counts.tsv
results/diff_accessibility.tsv
figures/tss_enrichment.pdf
figures/fragment_size_distribution.pdf
Starter Pattern
macs3 callpeak \
-t atac.bam \
-f BAMPE \
-g hs \
-n sample \
--nomodel \
--shift -100 \
--extsize 200 \
-q 0.01 \
--outdir results/peaks
Key Parameters
| Parameter | Typical value | Notes |
|---|
-f | BAMPE | paired-end ATAC should use fragment-aware mode |
--nomodel | on | standard for ATAC |
--shift | -100 | common Tn5 offset convention |
--extsize | 200 | common first-pass extension |
-q | 0.01 | starting FDR threshold |
Workflow
1. Validate assay QC
Review:
- TSS enrichment
- fragment size periodicity
- duplication
- mapped read depth
2. Call peaks with ATAC-specific settings
Use fragment-aware paired-end mode and Tn5-aware shifting or equivalent settings.
3. Build a consensus peak matrix
Merge peaks across samples, count fragments into consensus intervals, then produce a peak-by-sample matrix.
4. Test differential accessibility
Use replicate-aware statistics and report both effect size and adjusted significance.
5. Run motif or footprint follow-up
Only after peak quality and read depth support it.
Output Artifacts
results/
├── peaks/
│ ├── sample_peaks.narrowPeak
│ └── sample_summits.bed
├── matrix/
│ └── consensus_peak_counts.tsv
└── diff_accessibility.tsv
qc/
├── tss_enrichment.tsv
└── fragment_metrics.tsv
figures/
├── tss_enrichment.pdf
└── fragment_size_distribution.pdf
Quality Review
- TSS enrichment below
7 should trigger caution.
- Strong nucleosome periodicity supports a good bulk ATAC library.
- FRiP below
0.1 is usually weak and needs scrutiny.
- Footprinting should not be trusted on low-depth or poor-quality libraries.
Anti-Patterns
- using generic ChIP peak-calling defaults for ATAC
- running footprinting on weak libraries
- skipping TSS enrichment review
- merging peaks from mixed reference builds
Related Skills
- ChIP Seq
- Gene Regulatory Networks
- Multiome And scATAC
Optional Supplements