BoltzGen MCP
Enables AI-powered protein design, including binders, peptides, and custom proteins, with GPU-accelerated Docker deployment and async job management.
README
BoltzGen MCP
AI-powered protein design via Docker and Model Context Protocol
Design protein binders, peptide binders, and custom proteins using BoltzGen with:
- Protein Binder Design — Design proteins that bind to target proteins
- Peptide Binder Design — Generate peptides with optimized sequences
- Multiple Protocols — Support for antibodies, nanobodies, and small molecule interactions
- Async Job Queue — FIFO scheduling with GPU-aware resource management
- Docker Deployment — Pre-built images with all dependencies included
Quick Start with Docker
Approach 1: Pull Pre-built Image from GitHub
The fastest way to get started. A pre-built Docker image is automatically published to GitHub Container Registry on every release.
# Pull the latest image
docker pull ghcr.io/macromnex/boltzgen_mcp:latest
# Register with Claude Code (runs as current user to avoid permission issues)
claude mcp add boltzgen -- docker run -i --rm --user `id -u`:`id -g` --gpus all --ipc=host -v `pwd`:`pwd` ghcr.io/macromnex/boltzgen_mcp:latest
Note: Run from your project directory. ${pwd} expands to the current working directory.
Requirements:
- Docker with GPU support (
nvidia-dockeror Docker with NVIDIA runtime) - Claude Code installed
That's it! The BoltzGen MCP server is now available in Claude Code.
Approach 2: Build Docker Image Locally
Build the image yourself and install it into Claude Code. Useful for customization or offline environments.
# Clone the repository
git clone https://github.com/MacromNex/boltzgen_mcp.git
cd boltzgen_mcp
# Build the Docker image
docker build -t boltzgen_mcp:latest .
# Register with Claude Code (runs as current user to avoid permission issues)
claude mcp add boltzgen -- docker run -i --rm --user `id -u`:`id -g` --gpus all --ipc=host -v `pwd`:`pwd` boltzgen_mcp:latest
Note: Run from your project directory. ${pwd} expands to the current working directory.
Requirements:
- Docker with GPU support
- Claude Code installed
- Git (to clone the repository)
About the Docker Flags:
-i— Interactive mode for Claude Code--rm— Automatically remove container after exit--user ${id -u}:${id -g}— Runs the container as your current user, so output files are owned by you (not root)--gpus all— Grants access to all available GPUs--ipc=host— Uses host IPC namespace for better performance-v— Mounts your project directory so the container can access your data
Verify Installation
After adding the MCP server, you can verify it's working:
# List registered MCP servers
claude mcp list
# You should see 'boltzgen' in the output
In Claude Code, you can now use all 8 BoltzGen tools:
boltzgen_run— Synchronous protein designboltzgen_submit— Submit async design jobsboltzgen_check_status— Monitor job progress by output directoryboltzgen_job_status— Check job by IDboltzgen_queue_status— View queue and GPU availabilityboltzgen_cancel_job— Cancel jobsboltzgen_configure_queue— Set max workers and GPU configurationboltzgen_resource_status— Verify GPU resource management
Next Steps
- Detailed documentation: See details.md for comprehensive guides on:
- Local Python environment setup (alternative to Docker)
- Available MCP tools and parameters
- Example workflows and tutorials
- Configuration file formats
- Troubleshooting
Usage Examples
Once registered, you can use the BoltzGen tools directly in Claude Code. Here are some common workflows:
Example 1: Quick Protein Design
Submit protein binder design for @examples/data/1g13prot.yaml
with output_dir "results/1g13_design" and num_designs 5
Example 2: Peptide Binder with Quality Focus
Submit peptide binder design for @examples/data/beetletert.yaml
with output_dir "results/peptide_design", alpha 0.01 (quality focused),
and num_designs 10
Example 3: Async Job Submission and Monitoring
1. Submit async protein design for @examples/data/1g13prot.yaml
with output_dir "results/async_design" and num_designs 10
2. Check job status every 30 seconds
3. When complete, show me the generated structures
Example 4: Batch Processing Multiple Targets
Submit batch protein design for these configs:
- @examples/data/1g13prot.yaml (1G13 protein)
- @examples/data/beetletert.yaml (BeetleTert)
- @examples/data/pdl1_simplified.yaml (PDL1)
Save to output_base_dir "results/batch" with num_designs 5 each
Example 5: Validate Configuration Before Design
Validate these configs and show me any issues:
- @examples/data/1g13prot.yaml
- @examples/data/beetletert.yaml
- @examples/data/chorismite.yaml
Example 6: Monitor Job Queue
Show me the current job queue status and available GPUs
Demo Data
Example configuration files are included in examples/data/:
| File | Description | Use Case |
|---|---|---|
1g13prot.yaml |
1G13 protein binder design | Protein-protein interactions |
beetletert.yaml |
BeetleTert peptide design | Peptide drug discovery |
pdl1_simplified.yaml |
PDL1 antibody design | Antibody engineering |
chorismite.yaml |
Small molecule binding | Enzyme design |
penguinpox.yaml |
Nanobody design | Nanobody development |
Supported Protocols
All tools support the following design protocols:
protein-anything(default) — General protein binder designpeptide-anything— Peptide design with cysteine filteringprotein-small_molecule— Small molecule interactionsnanobody-anything— Nanobody CDR designantibody-anything— Antibody design
GPU Support
Docker setup fully supports:
- Multi-GPU systems (specify device via
cuda:0,cuda:1, etc.) - Single GPU setup
- CPU-only inference (slower, use
cpudevice)
Troubleshooting
Docker not found?
docker --version # Install Docker if missing
GPU not accessible?
- Ensure NVIDIA Docker runtime is installed
- Check with
docker run --gpus all ubuntu nvidia-smi
Claude Code not found?
# Install Claude Code
npm install -g @anthropic-ai/claude-code
Permission issues with output files? The Docker setup automatically runs as your current user. If you still see permission issues:
# Rebuild with your user ID
docker build --build-arg USER_ID=$(id -u) --build-arg GROUP_ID=$(id -g) -t boltzgen_mcp:latest .
Local Setup (Alternative to Docker)
For development or custom environments, see details.md for:
- Manual conda environment setup
- Direct Python script execution
- Custom configuration options
License
Based on the original BoltzGen repository by Hannes Stark et al. MCP integration built using FastMCP framework.
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