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/install genomics
Description
Interpret genomic variants with ACMG classification, pharmacogenomics, and clinical annotation from ClinVar and gnomAD.
README (SKILL.md)
Setup
On first use, read setup.md for integration guidelines. Ask user consent before creating ~/genomics/ workspace.
When to Use
User has processed genomic data (VCF files) and needs clinical interpretation. Agent handles variant classification, pharmacogenomics recommendations, and annotation lookup. NOT for raw data processing — use bioinformatics skill for alignment and variant calling.
Architecture
Memory lives in ~/genomics/. See memory-template.md for structure.
~/genomics/
├── memory.md # Context + preferences + interpretation history
└── cases/ # Active interpretation cases
Quick Reference
| Topic | File |
|---|---|
| Setup process | setup.md |
| Memory template | memory-template.md |
Core Rules
1. Classify Variants Using ACMG Guidelines
Every variant needs systematic classification:
| Category | Criteria |
|---|---|
| Pathogenic | PVS1, PS1-4, PM1-6, PP1-5 weighted |
| Likely Pathogenic | Strong + moderate evidence |
| VUS | Insufficient or conflicting evidence |
| Likely Benign | BS1-4, BP1-7 weighted |
| Benign | Strong benign evidence |
Never classify without evidence. State "insufficient data" when appropriate.
2. Check Population Frequency First
Before clinical interpretation, verify frequency:
| Source | Use For |
|---|---|
| gnomAD v4 | Global population frequency |
| gnomAD non-cancer | Somatic analysis |
| Population-specific | Ancestry-appropriate filtering |
MAF >1% in any population = likely benign for rare disease.
3. Cross-Reference Multiple Databases
| Database | Information |
|---|---|
| ClinVar | Clinical classifications + submitter evidence |
| OMIM | Gene-disease relationships |
| HGMD | Literature-reported mutations |
| UniProt | Protein function + domains |
Single-source interpretation is insufficient. Triangulate evidence.
4. Report Pharmacogenomics Actionably
For drug-gene interactions, provide:
- Diplotype (e.g., CYP2D6 *1/*4)
- Predicted phenotype (poor/intermediate/normal/ultra-rapid metabolizer)
- Drug list affected
- Dosing guidance (CPIC/DPWG when available)
5. Separate Germline from Somatic Context
| Context | Key Differences |
|---|---|
| Germline | Family implications, carrier testing, predictive |
| Somatic | Tumor-specific, therapy selection, no inheritance |
Always state which context you're interpreting.
6. Acknowledge Uncertainty
- Novel variants often lack evidence
- VUS ≠ benign — requires ongoing monitoring
- Reclassification happens (ClinVar updates monthly)
- Computational predictions are supportive, not definitive
Pharmacogenomics Reference
High-Priority Drug-Gene Pairs (CPIC Level A)
| Gene | Drugs | Clinical Action |
|---|---|---|
| CYP2D6 | Codeine, tramadol, tamoxifen, SSRIs | Dosing/alternative |
| CYP2C19 | Clopidogrel, PPIs, voriconazole | Dosing/alternative |
| CYP2C9 + VKORC1 | Warfarin | Dosing algorithm |
| DPYD | Fluorouracil, capecitabine | Dose reduction/avoid |
| TPMT + NUDT15 | Azathioprine, mercaptopurine | Dose reduction |
| HLA-B*57:01 | Abacavir | Contraindication |
| HLA-B*15:02 | Carbamazepine | Contraindication (Asian ancestry) |
| SLCO1B1 | Simvastatin | Dose cap/alternative statin |
| G6PD | Rasburicase, primaquine | Contraindication |
| CYP3A5 | Tacrolimus | Dosing adjustment |
Phenotype Interpretation
| Metabolizer Status | Meaning | Typical Action |
|---|---|---|
| Poor (PM) | Little/no enzyme activity | Alternative drug or dose ↓↓ |
| Intermediate (IM) | Reduced activity | Consider dose ↓ |
| Normal (NM) | Expected activity | Standard dosing |
| Rapid/Ultra-rapid (UM) | Increased activity | Dose ↑ or alternative |
Annotation Resources
| Resource | URL | Content |
|---|---|---|
| ClinVar | ncbi.nlm.nih.gov/clinvar | Clinical variant classifications |
| gnomAD | gnomad.broadinstitute.org | Population frequencies |
| OMIM | omim.org | Gene-disease relationships |
| PharmGKB | pharmgkb.org | Drug-gene annotations |
| CPIC | cpicpgx.org | Pharmacogenomics guidelines |
| ClinGen | clinicalgenome.org | Gene-disease validity |
| Franklin | franklin.genoox.com | Variant interpretation aid |
| VarSome | varsome.com | ACMG auto-classification |
Common Interpretation Traps
- Ignoring population specificity — Variants common in African populations may look rare in European-biased databases
- Trusting single ClinVar submitter — Check submitter count and review status (≥2 submitters, no conflict preferred)
- Conflating computational prediction with evidence — CADD/REVEL are supportive, not diagnostic
- Missing compound heterozygosity — Two VUS in trans can be pathogenic together
- Outdated database versions — gnomAD v4 has 800K+ exomes vs v2's 125K
- Ignoring gene-level constraint — pLI/LOEUF scores indicate tolerance to loss-of-function
External Endpoints
This skill does NOT automatically call external APIs. All database references are for manual lookup:
| Resource | When Used | Data Sent |
|---|---|---|
| ClinVar, gnomAD, OMIM | User manually visits | None by this skill |
| PharmGKB, CPIC | User manually visits | None by this skill |
| VarSome, Franklin | User manually visits | None by this skill |
No automatic network requests. The skill provides URLs and guidance for manual lookup only.
Security & Privacy
Data that stays local:
- All interpretation work runs locally
- No variant data sent externally by this skill
- No automatic API calls to any database
This skill does NOT:
- Make network requests automatically
- Upload patient variants anywhere
- Connect to databases without explicit user action
- Store identifiable genomic information outside ~/genomics/
Related Skills
Install with clawhub install \x3Cslug> if user confirms:
medicine— clinical decision supportbiology— molecular mechanismschemistry— drug metabolism pathwayshealth— patient care context
Feedback
- If useful:
clawhub star genomics - Stay updated:
clawhub sync
Usage Guidance
This skill is instruction-only and appears coherent, but review these points before enabling: 1) Consent: the agent will ask to create ~/genomics/ and save memory.md — only agree if you’re comfortable with local storage of interpretation notes. 2) PHI: do not store identifiable patient data in the workspace unless your environment and policies permit it. 3) Network calls: the skill claims it will not automatically call external APIs — if you see the agent making unexpected network requests, stop and investigate. 4) Clinical use: outputs are interpretive guidance; a qualified clinician should review before making patient-care decisions. If you want higher assurance, request the skill author/source information or run the skill in a sandboxed environment first.
Capability Analysis
Type: OpenClaw Skill
Name: genomics
Version: 1.0.0
The skill's documentation and instructions are clearly aligned with its stated purpose of genomic interpretation. It explicitly disclaims automatic network requests or data exfiltration in `SKILL.md` under 'External Endpoints' and 'Security & Privacy'. File system operations (creating `~/genomics/` and `~/genomics/memory.md`) are explicitly stated to require user consent in `setup.md`. There is no evidence of malicious prompt injection, unauthorized execution, data theft, or persistence mechanisms. The instructions to the agent are focused on helpful, consent-driven interaction and local context management.
Capability Assessment
Purpose & Capability
Name/description (ACMG classification, ClinVar/gnomAD annotation, pharmacogenomics) match the SKILL.md instructions. No unexpected binaries, credentials, or external services are required.
Instruction Scope
Instructions are limited to interpretation workflows, guidance, and creating a local ~/genomics/ workspace (with user consent). The skill explicitly states it will not perform automatic network calls and asks to save only user-approved preferences and case notes. The only notable behavior is persistent local storage (memory.md), which is expected but should be acknowledged by the user.
Install Mechanism
No install spec and no code files are included (instruction-only). This minimizes risk because nothing is downloaded or executed by default.
Credentials
The skill declares no required environment variables, no credentials, and no config paths. This is proportionate to its described function.
Persistence & Privilege
The skill will create and write to a local workspace (~/genomics/) and memory.md with user consent. It does not request always:true and does not modify other skills or system-wide settings.
How to Use
- Make sure OpenClaw is installed (local or Docker)
- Run the install command in chat:
/install genomics - After installation, invoke the skill by name or use
/genomics - Provide required inputs per the skill's parameter spec and get structured output
Version History
v1.0.0
Initial release
Metadata
Frequently Asked Questions
What is Genomics?
Interpret genomic variants with ACMG classification, pharmacogenomics, and clinical annotation from ClinVar and gnomAD. It is an AI Agent Skill for Claude Code / OpenClaw, with 624 downloads so far.
How do I install Genomics?
Run "/install genomics" in the OpenClaw or Claude Code chat to install it in one step — no extra setup required.
Is Genomics free?
Yes, Genomics is completely free (open-source). You can download, install and use it at no cost.
Which platforms does Genomics support?
Genomics is cross-platform and runs anywhere OpenClaw / Claude Code is available (linux, darwin, win32).
Who created Genomics?
It is built and maintained by Iván (@ivangdavila); the current version is v1.0.0.
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