tooluniverse-epigenomics
✓Comprehensive epigenomics and gene regulation analysis integrating ENCODE functional genomics data, JASPAR transcription factor binding motifs, SCREEN cis-regulatory elements, ReMap TF binding sites, RegulomeDB variant regulatory scoring, 4D Nucleome chromatin conformation, and Ensembl regulatory features. Performs regulatory element cataloging, transcription factor analysis, variant regulatory impact scoring, chromatin conformation mapping, and gene-centric regulatory landscape profiling. Use when asked about gene regulation, enhancers, promoters, transcription factor binding, epigenetic modifications, chromatin structure, regulatory variants, or non-coding genome function.
Installation
SKILL.md
Comprehensive analysis of the regulatory genome integrating functional genomics experiments, transcription factor binding data, cis-regulatory element catalogs, chromatin conformation, and variant regulatory scoring. Generates structured regulatory landscape reports with evidence grading.
| T1 | [T1] | Direct experimental validation, functional assay | CRISPR-validated enhancer, reporter assay, luciferase | | T2 | [T2] | High-quality experimental data, curated | ENCODE ChIP-seq peak, SCREEN cCRE, ReMap binding site | | T3 | [T3] | Computational prediction, motif match | JASPAR motif score, RegulomeDB score, Ensembl regulatory prediction |
| T4 | [T4] | Association, text-mined, low confidence | Literature mention, low-score motif match, inferred regulation |
Comprehensive epigenomics and gene regulation analysis integrating ENCODE functional genomics data, JASPAR transcription factor binding motifs, SCREEN cis-regulatory elements, ReMap TF binding sites, RegulomeDB variant regulatory scoring, 4D Nucleome chromatin conformation, and Ensembl regulatory features. Performs regulatory element cataloging, transcription factor analysis, variant regulatory impact scoring, chromatin conformation mapping, and gene-centric regulatory landscape profiling. Use when asked about gene regulation, enhancers, promoters, transcription factor binding, epigenetic modifications, chromatin structure, regulatory variants, or non-coding genome function. Source: mims-harvard/tooluniverse.
Facts (cite-ready)
Stable fields and commands for AI/search citations.
- Install command
npx skills add https://github.com/mims-harvard/tooluniverse --skill tooluniverse-epigenomics- Category
- {}Data Analysis
- Verified
- ✓
- First Seen
- 2026-02-17
- Updated
- 2026-02-18
Quick answers
What is tooluniverse-epigenomics?
Comprehensive epigenomics and gene regulation analysis integrating ENCODE functional genomics data, JASPAR transcription factor binding motifs, SCREEN cis-regulatory elements, ReMap TF binding sites, RegulomeDB variant regulatory scoring, 4D Nucleome chromatin conformation, and Ensembl regulatory features. Performs regulatory element cataloging, transcription factor analysis, variant regulatory impact scoring, chromatin conformation mapping, and gene-centric regulatory landscape profiling. Use when asked about gene regulation, enhancers, promoters, transcription factor binding, epigenetic modifications, chromatin structure, regulatory variants, or non-coding genome function. Source: mims-harvard/tooluniverse.
How do I install tooluniverse-epigenomics?
Open your terminal or command line tool (Terminal, iTerm, Windows Terminal, etc.) Copy and run this command: npx skills add https://github.com/mims-harvard/tooluniverse --skill tooluniverse-epigenomics Once installed, the skill will be automatically configured in your AI coding environment and ready to use in Claude Code or Cursor
Where is the source repository?
https://github.com/mims-harvard/tooluniverse
Details
- Category
- {}Data Analysis
- Source
- skills.sh
- First Seen
- 2026-02-17