Multi-track circular and linear Manhattan plot generation for GWAS summary statistics
Project description
pycmplot
Multi-track circular and linear Manhattan plot generation for GWAS summary statistics.
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~#
| PACKAGE FOR CIRCULAR AND LINEAR MANHATTAN PLOTTING |
| Kevin Esoh, 2026 |
| kesohku1@jh.edu |
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~#
This package will take any number of per SNP/variant summary statistics, be it GWAS, selection scans (e.g. iHS, EHH, FST), etc and generate Manhattan plots. If given a single file, a single one-track Manhattan plot will be generated. Multiple files will result in the generation of a multi-track stacked Manhattan plot.
In the process, the package will generate a hits summary table for variants with p-value (or whatever statistic for significance is used) below the user-specified significance threshold. This hits summary table will contain annotated gene names, in addition to other annotations, that would then be used to annotate the plots.
Importantly, the package allows for conversion of hg19 genomic coordinates to hg38 coordinates.
This ensures that summary stats obtained using different imputation panels, for instance, can be
processed in the same run. That is, users can simply concatenate multiple summary stats files together,
such as those for the same trait but analysed using different imputation panels. Users only need to
add a new column specifying the genome build (hg19 or hg38) of the variants. Then the --build_column
option of the package should be used to indicate the column and then the package will liftover all
postions in hg19 to hg38 ensuring that hits table generation and plotting are done with one unified
corrdinate system.
A key functionality of the package is its ability to auto-detect certain columns if ommited on the command-line or python API:
- Chromosome column:
-chr, --chrom_columnor ommited - Basepair position column:
-pos, --pos_columnor ommited - SNP or Marker ID column:
-snp, --snp_columnor ommited - P-value (or whatever value) column:
-p, --pval_columnor ommited - Build version column:
-b, --build_columnor ommited
Candidate names for each of the columns is shown below.
# Resolve column names
chr_candidates = [chrom, 'CHR', 'CHROM', 'Chromosome', '#CHROM', '#CHR', 'Chrom', 'chrom', 'chr', 'chromosome', '#chr', '#chrom']
pos_candidates = [pos, 'BP', 'POS', 'bp', 'pos', 'Basepair']
snp_candidates = [snp, 'SNP', 'RSID', 'rsID', 'MarkerName', 'MarkerID', 'Predictor', 'Marker', 'SNPID', 'ID']
pvl_candidates = [pcol, 'P', 'P-value', 'Wald_P', 'pvalue', 'p_val', 'pval']
bld_candidates = [build, 'BUILD', 'Genome', 'Genome_Build', 'Genome-build']
NB: Upper and lower cases of the candidates are also considered, making each candidate expanded 3 times.
Since GWAS summary stats files can be very large, to improve speed and memory efficiency, it is
highly recommended to use -tp, --trim_pval with a value to exclude variants with p-value above a
certain threshold, e.g. 0.01 (1e-2) or 0.001 (1e-3).
A potential useful application is comparative visualization of results from multiple imputation panels, multiple populations, or multiple traits to observe shared genetic architecture.
Installation
From PyPI
pip install pycmplot
From GitHub
git clone https://github.com/esohkevin/pycmplot.git
cd pycmplot
pip install -e .
# or
pip install -e . --break-system-packages
Use python virtual environment if local installation is not possible
python -m venv ~/bin/pycmplot
source ~/bin/pycmplot/bin/activate
pip install --upgrade pip setuptools wheel
# then follow any of the installation steps above
Test the installation
pycmplot -h
Dependencies
| Package | Purpose |
|---|---|
| pandas, numpy | Data loading & statistics |
| matplotlib | Plotting backend |
| pycirclize | Circular (Circos-style) tracks |
| natsort | Natural chromosome sorting |
| adjustText | Label collision avoidance |
| pyliftover | hg19 to hg38 coordinate conversion |
| Pillow | Image utilities |
Command-line usage
Linear Manhattan (default)
pycmplot \
--sum_stats HbF.tsv.gz,MCV.txt.gz,MCH.tsv.gz \
--labels HbF,MCV,MCH \
--logp \
--signif_line \
--highlight \
--annotate GENE \
--output_dir ./results \
--output_format png \
--dpi 300
Circular Manhattan
pycmplot \
--sum_stats HbF.tsv.gz,MCV.tsv.gz \
--labels HbF,MCV \
--mode cm \
--trim_pval 0.01 \
--logp \
--signif_threshold \
--plot_title "RBC Traits" \
--output_dir ./results
Key options
| Flag | Description | Default |
|---|---|---|
-s, --sum_stats |
Comma-separated sumstats files | required |
-l, --labels |
Comma-separated track labels | required |
-b, --build_column |
Genome build column name (containing hg18/hg19/hg38) | required |
-m, --mode |
lm linear or cm circular |
lm |
-qq, --qq_plot |
Also generate a QQ-plot | off (coming soon...) |
--logp |
Plot -log10(p) | off |
-sig, --signif_threshold |
Genome-wide significance threshold | off (auto 0.05/N) |
-sigl, --signif_line |
Value for genome-wide significance line if different from -sig |
5e-8 |
-sug, --suggest_threshold |
Threshold for suggestive signals | off |
-hl, --highlight |
Highlight significant loci | off |
-a, --annotate |
Annotate with SNP or GENE |
SNP |
-tp, --trim_pval |
Trim variants above this p-value for speed | off |
-st, --sort_track |
Sort tracks by label or chrom_len |
input order |
-od, --output_dir |
Output directory | . |
-of, --output_format |
Output format (png, pdf, svg, jpg) |
png |
Run pycmplot -h for the full option list.
Python API
A demonstration of how to use the python API is provided in this notebook: https://github.com/esohkevin/pycmplot/blob/main/pycmplot_python_api.ipynb
Package structure
pycmplot/
├── pyproject.toml
├── setup.py
├── setup.cfg
├── README.md
└── pycmplot/
├── __init__.py # public API exports
├── __main__.py # python -m pycmplot
├── _core.py # main() orchestration
├── cli.py # argparse definitions
├── constants.py # chromosome lengths, biotype weights
├── resources.py # external resource path config
├── io.py # sumstat loading, delimiter detection
├── stats.py # get_lead_snps, get_highlight_snps
├── liftover.py # lazy hg19→hg38 liftover
├── annotation.py # nearest-gene annotation, hits table
└── plotting/
├── __init__.py
├── linear.py # plot_linear
└── circular.py # plot_circular, compute_track_radii_dict
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