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Heuris BioMCP

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A bioinformatics MCP server that connects AI clients to over 30 life science databases and 32 curated tools for research, drug discovery, and clinical analysis.

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Описание

A bioinformatics MCP server that connects AI clients to over 30 life science databases and 32 curated tools for research, drug discovery, and clinical analysis.

README

License: MIT Python 3.11+ MCP Compatible Tools: 32 Databases: 30+ Live Demo

Strategic Model Context Protocol server for life sciences.
Connect ChatGPT, Claude, and other MCP clients to a curated biology tool surface built for research, translational workflows, and production review.

🚀 Quick Start🔧 Tools📊 Databases💡 Examples🤝 Contributing


Live Demo

Try Heuris-BioMCP without installing — connect to our live server:

https://heuris-biomcp.onrender.com/mcp

If hosted auth is enabled, Claude-compatible clients will complete the OAuth redirect flow automatically. Non-interactive clients can also use bearer API keys.

Connect to Live Server

For Claude, use Customize > Connectors and enter:

https://heuris-biomcp.onrender.com/mcp

For generic remote MCP clients that accept URL-based server definitions:

{
  "mcpServers": {
    "heuris-biomcp": {
      "url": "https://heuris-biomcp.onrender.com/mcp"
    }
  }
}

Note: https://heuris-biomcp.onrender.com/mcp is the recommended remote MCP endpoint for modern clients. The legacy SSE endpoint remains available at https://heuris-biomcp.onrender.com/sse.


See Heuris-BioMCP in Action

Heuris-BioMCP Demo

Quick Demo Video

Watch how to connect Heuris-BioMCP to Claude Desktop:

Watch Demo

Tip: Coming soon - video walkthrough of connecting Heuris-BioMCP and running your first query!


What is Heuris-BioMCP?

Heuris-BioMCP bridges MCP clients and high-value life-science data sources through a curated public tool surface. The server exposes the workflows that matter most for product review and research use, while lower-level helper modules remain internal for composition and planner logic.

You -> "What drugs target EGFR and what clinical trials are recruiting?"
ChatGPT + Heuris-BioMCP -> Queries ChEMBL + ClinicalTrials.gov -> Structured answer

What's New in v2.3

  • Curated the public MCP surface from a broad 71-tool registry down to a strategy-driven set of 32 review-friendly tools
  • Merged operational suites into workflow tools: find_protein, pathway_analysis, crispr_analysis, drug_safety, variant_analysis, and session
  • Added new translational tools: drug_interaction_checker, protein_binding_pocket, biomarker_panel_design, pharmacogenomics_report, protein_family_analysis, network_enrichment, rnaseq_deconvolution, structural_similarity, rare_disease_diagnosis, and genome_browser_snapshot
  • Removed low-signal or niche tools from the public MCP registry while keeping lower-level code available internally
  • Preserved hosted HTTP/SSE deployment and operational endpoints for production-style MCP review
  • Added optional hosted OAuth 2.1 PKCE and API-key auth for authenticated remote connectors
  • Added Prometheus metrics, streamed progress chunks for slow tools, persistent gene/disease/watch MCP resources, and literature watch workflows

Tools (32 curated public surface)

Core Research

Tool Description
search_pubmed PubMed literature search with MeSH, Boolean syntax, abstracts, and metadata
get_gene_info NCBI Gene summary with aliases, locus, and functional context
run_blast NCBI BLAST sequence alignment
get_protein_info Full UniProt Swiss-Prot protein record
find_protein Unified UniProt plus PDB protein discovery workflow
get_alphafold_structure AlphaFold structure metadata and confidence summary
pathway_analysis Merged KEGG plus Reactome pathway workflow
get_drug_targets ChEMBL drug-target evidence for a gene
get_gene_disease_associations Open Targets translational gene-disease evidence
search_clinical_trials ClinicalTrials.gov recruiting-trial search
multi_omics_gene_report Integrated multi-database flagship gene report

AI And Engineering Workflows

Tool Description
predict_structure_boltz2 Boltz-2 structure workflow with optional protein-ligand mode
generate_dna_evo2 Evo2 generation or WT-vs-variant scoring workflow
crispr_analysis Merged CRISPR design, scoring, off-target, base-edit, and repair workflow
drug_safety Merged FDA safety workflow for events, signals, labels, and comparisons
variant_analysis Merged ACMG, gnomAD, ClinVar, splice, and integrated variant reporting
session Merged entity, graph, export, and adaptive planning workflow

High-Value Translational Tools

Tool Description
find_repurposing_candidates Drug repurposing workflow over literature, trials, and target evidence
verify_biological_claim Cross-database biological claim verification
search_cbio_mutations Cancer mutation frequency search
search_gwas_catalog GWAS trait-association search
drug_interaction_checker FDA label-based interaction screening
protein_binding_pocket Candidate binding-site summary from annotated protein features
biomarker_panel_design Disease-focused biomarker panel drafting
pharmacogenomics_report CPIC-style pharmacogenomics summary with PGx evidence
protein_family_analysis Protein family and domain context
network_enrichment Gene-set pathway and interaction-hub enrichment summary
rnaseq_deconvolution Marker-based bulk RNA-seq deconvolution
structural_similarity PubChem-based chemical structural similarity search
rare_disease_diagnosis Phenotype normalization plus OMIM-oriented rare-disease differential support
genome_browser_snapshot Browser-ready locus context for genes and genomic intervals

Public Surface Policy

  • The MCP registry is intentionally curated.
  • Lower-level legacy implementations still exist in the package for internal orchestration and testing.
  • Reviewers should evaluate the exposed MCP surface, not the hidden implementation inventory.

Databases & AI Models

Source Domain URL
Traditional Databases
NCBI PubMed Literature https://pubmed.ncbi.nlm.nih.gov
NCBI Gene Genomics https://www.ncbi.nlm.nih.gov/gene
NCBI BLAST Sequence Alignment https://blast.ncbi.nlm.nih.gov
NCBI GEO Gene Expression https://www.ncbi.nlm.nih.gov/geo
UniProt Swiss-Prot Proteomics https://www.uniprot.org
AlphaFold DB Protein Structure https://alphafold.ebi.ac.uk
RCSB PDB Protein Structure https://www.rcsb.org
KEGG Pathways https://www.kegg.jp
Reactome Pathways https://reactome.org
ChEMBL Drug Discovery https://www.ebi.ac.uk/chembl
Open Targets Gene-Disease https://platform.opentargets.org
Ensembl Genomics https://www.ensembl.org
ClinicalTrials.gov Clinical https://clinicaltrials.gov
Human Cell Atlas Single-Cell https://data.humancellatlas.org
OpenNeuro Neuroimaging https://openneuro.org
NeuroVault Neuroimaging https://neurovault.org
v2 Extended Databases
OMIM Genetic Diseases https://www.omim.org
STRING Protein Interactions https://string-db.org
GTEx Expression Atlas https://gtexportal.org
cBioPortal Cancer Genomics https://www.cbioportal.org
GWAS Catalog Trait Associations https://www.ebi.ac.uk/gwas
DisGeNET Disease-Gene https://www.disgenet.org
PharmGKB Pharmacogenomics https://www.pharmgkb.org
v2.2 Tier 2 Databases
BioGRID Protein Interactions https://thebiogrid.org
Orphanet Rare Diseases https://www.orpha.net
GDC / TCGA Tumor Genomics https://portal.gdc.cancer.gov
CellMarker Cell Type Markers http://xteam.xbio.top/CellMarker
ENCODE Regulatory Elements https://www.encodeproject.org
MetaboLights Metabolomics https://www.ebi.ac.uk/metabolights
UCSC Genome Browser Splice Isoforms https://genome.ucsc.edu
Safety, Variant & Innovation Sources
OpenFDA / FAERS Drug Safety https://api.fda.gov
DailyMed Drug Labels https://dailymed.nlm.nih.gov
ClinVar Clinical Variants https://www.ncbi.nlm.nih.gov/clinvar
gnomAD Population Variation https://gnomad.broadinstitute.org
bioRxiv / medRxiv Preprints https://www.biorxiv.org
InterPro Protein Domains https://www.ebi.ac.uk/interpro
COSMIC Cancer Mutations https://cancer.sanger.ac.uk/cosmic
AI Models (NVIDIA NIM)
MIT Boltz-2 Structure Prediction https://build.nvidia.com/mit/boltz2
Arc Evo2-40B DNA Generation https://build.nvidia.com/arc/evo2-40b

Quick Start

Option 1: Use Live Demo (No Installation)

Use Claude's Customize > Connectors flow and enter:

https://heuris-biomcp.onrender.com/mcp

If you are connecting with an older MCP client that still expects SSE, use:

https://heuris-biomcp.onrender.com/sse

Option 2: Deploy Your Own

Deploy to Render with one click:

Deploy to Render

Or manually:

  1. Fork this repository
  2. Create a new Web Service on Render
  3. Connect your fork
  4. Set build command: pip install -r requirements.txt && pip install -e .
  5. Set start command: BIOMCP_TRANSPORT=http BIOMCP_HTTP_PORT=$PORT python -m biomcp

Hosted Deployment Limitations

  • Session snapshots saved through the session tool are only durable if BIOMCP_SESSION_STORE_DIR points to persistent storage.
  • On Render free tier, the default local directory uses ephemeral disk and will be wiped on restart, redeploy, or scale-to-zero wake-up.
  • If you need persistent saved sessions, set BIOMCP_SESSION_STORE_DIR to a mounted persistent path or move session persistence behind an external store before relying on cross-session restore.

Hosted Auth and Connector Setup

  • For Anthropic-style hosted connectors, enable BIOMCP_AUTH_ENABLED=1.
  • OAuth 2.1 PKCE is exposed at /.well-known/oauth-authorization-server, /oauth/authorize, /oauth/token, and /oauth/register.
  • For machine-to-machine clients, set BIOMCP_API_KEYS and send either Authorization: Bearer <key> or X-API-Key: <key>.
  • Per-key limits are controlled with BIOMCP_API_KEY_RATE_LIMIT_REQUESTS and BIOMCP_API_KEY_RATE_LIMIT_WINDOW_SECONDS.

Persistent Resources and Literature Watches

  • biomcp://gene/{SYMBOL} returns a curated gene context resource with gene, protein, pathway, disease, and drug-target context.
  • biomcp://disease/{URL-ENCODED-NAME} returns disease literature plus session-graph context.
  • session(action="watch") registers a PubMed + bioRxiv watch and exposes biomcp://watch/{TOPIC} as a reusable resource.
  • Saved sessions and watches are only persistent if the backing session-store directory is durable.

Privacy, Support, and Data Handling

Option 3: Local Installation

Prerequisites

  • Python 3.11+
  • Claude Desktop or any MCP-compatible client
  • (Optional) NCBI API key for higher rate limits
  • (Optional) NVIDIA API keys for AI tools

Installation

# Clone the repository
git clone https://github.com/SachinGawande2003/Heuris-BioMCP.git
cd Heuris-BioMCP

# Install (standard)
pip install -e .

# Install with neuroimaging support
pip install -e ".[neuroimaging]"

# Install with dev dependencies (recommended)
pip install -e ".[dev]"

Configure Claude Desktop

For Local STDIO Mode (default):

{
  "mcpServers": {
    "heuris-biomcp": {
      "command": "biomcp",
      "env": {
        "NCBI_API_KEY": "your_ncbi_api_key_here"
      }
    }
  }
}

For Remote HTTP Mode (using live demo or your own deployed server):

Use Claude's Customize > Connectors flow and enter:

https://heuris-biomcp.onrender.com/mcp

If you are connecting with an older MCP client that still expects SSE, use:

https://heuris-biomcp.onrender.com/sse

💡 Tip: Get a free NCBI API key to increase rate limits from 3 to 10 requests/second.

🚀 New: Get free NVIDIA API keys for AI tools at build.nvidia.com/mit/boltz2 and build.nvidia.com/arc/evo2-40b.

Restart Claude Desktop and test:

"Search PubMed for recent papers on CAR-T cell therapy in B-cell lymphoma"
"Get the AlphaFold structure for TP53 and tell me about the confidence scores"
"What drugs are approved that target EGFR?"
"Generate a multi-omics report for KRAS"
"Predict the structure of EGFR with ligand CC1=CC=CC=C1 and compute binding affinity"
"Generate a DNA sequence starting with ATGGCG..."

Usage Examples

Literature Mining

"Search PubMed for BRCA1 CRISPR correction methods published in the last 2 years"
"Find review articles about PD-1/PD-L1 immune checkpoint inhibitors"

Protein Analysis

"Get UniProt info for human TP53 (P04637) including its domains and disease associations"
"Search for AlphaFold structures for insulin receptor"
"Find all PDB crystal structures of BRAF kinase domain resolved below 2.5 Ångström"

Drug Discovery

"What are the top ChEMBL compounds targeting KRAS G12C mutation?"
"Get compound info for imatinib (CHEMBL941)"
"Show me gene-disease associations for BRCA1 with evidence scores"

AI-Powered Structure Prediction

"Predict the 3D structure of insulin (sequence: ...) with ligand CCO"
"Compute binding affinity between EGFR and gefitinib (SMILES: ...)"
"Get structure prediction for a protein-protein complex"

AI-Powered DNA Generation

"Generate a 200bp promoter sequence starting with ATG"
"Compare wildtype vs variant DNA sequence for TP53 mutation"
"Generate regulatory element for gene expression"

Multi-Omics Report (Flagship)

"Generate a complete multi-omics report for EGFR"

This single command queries 7 databases in parallel and returns:

  • Genomic location and gene summary (NCBI Gene)
  • Recent publications (PubMed)
  • Protein function and structure (UniProt + AlphaFold)
  • Biological pathways (Reactome)
  • Drug targets and clinical compounds (ChEMBL)
  • Disease associations with scores (Open Targets)
  • Expression datasets (GEO)
  • Active clinical trials (ClinicalTrials.gov)

v2 Extended Databases

"Get OMIM diseases associated with TP53"
"Show STRING protein interactions for EGFR"
"Get GTEx expression data for BRCA1 across tissues"
"Find mutations in TP53 from cBioPortal"
"Search GWAS for diabetes-associated SNPs"

v2 Verification

"Verify the claim that TP53 is a tumor suppressor gene"
"Detect conflicts between OMIM and DisGeNET for BRCA1"

v2 Experimental Design

"Generate an experimental protocol for CRISPR knockout of BRCA1"
"What cell lines should I use to study KRAS mutations?"
"Calculate sample size for detecting 2-fold change with p<0.05"

v2 Session Intelligence

"What's the knowledge graph from our conversation so far?"
"Find biological connections between TP53 and EGFR"
"Export our research session as a reproducible script"
"Plan and execute a research workflow for PD-1 drug targets"

Architecture

biomcp/
├── src/biomcp/
│   ├── server.py              # MCP server — tool registry & dispatcher
│   ├── tools/
│   │   ├── ncbi.py            # PubMed, Gene, BLAST
│   │   ├── proteins.py        # UniProt, AlphaFold, PDB
│   │   ├── pathways.py        # KEGG, Reactome, ChEMBL, Open Targets
│   │   ├── advanced.py        # ClinicalTrials, GEO, scRNA, Ensembl,
│   │   │                      # Multi-Omics, Neuroimaging, Hypothesis
│   │   ├── nvidia_nim.py      # Boltz-2, Evo2-40B AI models
│   │   ├── databases.py       # v2: OMIM, STRING, GTEx, cBioPortal,
│   │   │                      #      GWAS, DisGeNET, PharmGKB
│   │   ├── verify.py          # v2: Claim verification, conflict detection
│   │   └── protocol_generator.py  # v2: Experimental design tools
│   ├── core/
│   │   ├── entity_resolver.py # v2: Cross-database entity resolution
│   │   ├── knowledge_graph.py # v2: Session knowledge graph
│   │   └── query_planner.py   # v2: Adaptive query planner
│   └── utils/
│       └── __init__.py        # Rate limiter, cache, validators, HTTP client
├── tests/
├── pyproject.toml
└── README.md

Key design decisions:

  • Async-first: All API calls are fully async with httpx, never blocking
  • Rate limiting: Token-bucket limiter per service respects each API's limits
  • Smart caching: TTL-based per-namespace cache (1h literature, 7d structures)
  • Retry logic: Exponential backoff via tenacity for transient failures
  • Validation: Input validation before any network call — never wastes API quota

Environment Variables

Variable Description Default
NCBI_API_KEY NCBI API key (increases rate limit to 10/s) None (3/s)
NVIDIA_BOLTZ2_API_KEY NVIDIA API key for Boltz-2 structure prediction None
NVIDIA_EVO2_API_KEY NVIDIA API key for Evo2-40B DNA generation None
NVIDIA_NIM_API_KEY Shared fallback key for both NVIDIA model integrations None
BIOGRID_API_KEY BioGRID key for curated interaction queries None
BIOMCP_TRANSPORT Transport mode: stdio or http stdio
BIOMCP_HTTP_PORT HTTP port for hosted SSE deployments 8080
BIOMCP_SESSION_STORE_DIR Durable directory for saved sessions .biomcp_sessions
BIOMCP_AUTH_ENABLED Require auth for hosted MCP requests disabled
BIOMCP_OAUTH_ENABLED Enable OAuth 2.1 PKCE endpoints when auth is enabled 1
BIOMCP_API_KEYS Comma-separated API keys in key_id:secret form None
BIOMCP_API_KEY_RATE_LIMIT_REQUESTS Per-key request budget per window 600
BIOMCP_API_KEY_RATE_LIMIT_WINDOW_SECONDS Per-key rate-limit window in seconds 60
BIOMCP_OAUTH_AUTO_APPROVE Auto-approve the consent screen for single-user deployments 0
BIOMCP_OAUTH_DEFAULT_SUBJECT Subject bound to approved OAuth tokens heuris-biomcp-user
BIOMCP_CORS_ALLOW_ORIGINS Comma-separated browser origins allowed for CORS disabled
BIOMCP_HTTP_RATE_LIMIT_ENABLED Enable per-client HTTP rate limiting 1
BIOMCP_HTTP_RATE_LIMIT_REQUESTS Requests allowed per rate-limit window 120
BIOMCP_HTTP_RATE_LIMIT_WINDOW_SECONDS Rate-limit window length in seconds 60
BIOMCP_HTTP_AUTH_RATE_LIMIT_REQUESTS Requests allowed per authenticated window 600
BIOMCP_HTTP_AUTH_RATE_LIMIT_WINDOW_SECONDS Authenticated rate-limit window length in seconds 60
BIOMCP_CACHE_WARMING Enable background cache warming in HTTP mode auto
BIOMCP_LOG_LEVEL Log level: DEBUG/INFO/WARNING/ERROR INFO

Get free API keys:

Operational Endpoints

When BioMCP runs in hosted HTTP mode, these operational routes are available:

Endpoint Purpose
/status Runtime status, HTTP policy, and session-storage configuration
/metrics Prometheus-compatible request, cache, latency, auth, and upstream metrics
/healthz Liveness and deployment metadata
/readyz Readiness check for orchestrators and load balancers
/tool-health Capability-level status, including missing optional API keys
/.well-known/oauth-authorization-server OAuth 2.1 metadata for hosted connectors
/oauth/register Dynamic OAuth client registration
/oauth/authorize OAuth authorization and PKCE consent
/oauth/token Authorization-code and refresh-token exchange
/mcp Streamable HTTP MCP endpoint
/sse MCP SSE endpoint
/messages/ MCP message transport endpoint

These endpoints are designed for deployment review, Render health checks, and production smoke tests.


Contributing

Contributions are welcome! Whether it's adding a new database, fixing a bug, improving documentation, or integrating new AI models.

# Development setup
pip install -e ".[dev]"

# Run tests
pytest tests/ -v --cov=biomcp

# Lint + type check
ruff check src/
mypy src/

Ideas for contributions

  • Add more pathway databases (Wikipathways, PathCards)
  • Integrate COSMIC for somatic mutations
  • Add protein complex data (CORUM)
  • Implement batch query support for high-throughput analysis
  • Add Jupyter notebook examples
  • Improve conflict resolution algorithms

Citation

If you use Heuris-BioMCP in your research, please cite:

@software{biomcp2025,
  title   = {Heuris-BioMCP v2: A Comprehensive MCP Server for Bioinformatics, AI Models, and Life Sciences},
  year    = {2025},
  url     = {https://github.com/SachinGawande2003/Heuris-BioMCP},
  license = {MIT}
}

License

MIT License — free for academic and commercial use.


Built for researchers, by researchers. 🔬
Star ⭐ this repo if Heuris-BioMCP helps your science!

from github.com/SachinGawande2003/Heuris-BioMCP

Установка Heuris BioMCP

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/SachinGawande2003/Heuris-BioMCP

FAQ

Heuris BioMCP MCP бесплатный?

Да, Heuris BioMCP MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Heuris BioMCP?

Нет, Heuris BioMCP работает без API-ключей и переменных окружения.

Heuris BioMCP — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Heuris BioMCP в Claude Desktop, Claude Code или Cursor?

Открой Heuris BioMCP на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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