Chai-1 Structure Prediction
Prerequisites
| Requirement | Minimum | Recommended |
|---|---|---|
| Python | 3.10+ | 3.11 |
| CUDA | 12.0+ | 12.1+ |
| GPU VRAM | 24GB | 40GB (A100) |
| RAM | 32GB | 64GB |
How to run
First time? See Installation Guide to set up Modal and biomodals.
Option 1: Modal
bash
cd biomodals modal run modal_chai1.py \ --input-faa complex.fasta \ --out-dir predictions/
GPU: A100 (40GB) | Timeout: 30min default
Option 2: Chai API (recommended)
bash
pip install chai_lab
python -c "
import chai_lab
from chai_lab.chai1 import run_inference
# Run prediction
run_inference(
fasta_file='complex.fasta',
output_dir='predictions/',
num_trunk_recycles=3
)
"
Option 3: Local installation
bash
git clone https://github.com/chaidiscovery/chai-lab.git cd chai-lab pip install -e . chai-lab predict \ --fasta complex.fasta \ --output predictions/
FASTA Format
Protein complex
code
>binder MKTAYIAKQRQISFVKSHFSRQLE... >target MVLSPADKTNVKAAWGKVGAHAGE...
Protein + ligand
code
>protein MKTAYIAKQRQISFVKSHFSRQLE... >ligand|smiles CCO
Protein + DNA/RNA
code
>protein MKTAYIAKQRQISFVKSHFSRQLE... >dna ATCGATCGATCG
Key parameters
| Parameter | Default | Range | Description |
|---|---|---|---|
num_trunk_recycles | 3 | 1-10 | Recycles (more = better) |
num_diffn_timesteps | 200 | 50-500 | Diffusion steps |
seed | 0 | int | Random seed |
Output format
code
predictions/ ├── pred.model_idx_0.cif # Best model (CIF format) ├── pred.model_idx_1.cif # Second model ├── scores.json # Confidence scores ├── pae.npy # PAE matrix └── plddt.npy # pLDDT values
Note: Chai-1 outputs CIF format. Convert to PDB if needed:
python
from Bio.PDB import MMCIFParser, PDBIO
parser = MMCIFParser()
structure = parser.get_structure("pred", "pred.model_idx_0.cif")
io = PDBIO()
io.set_structure(structure)
io.save("pred.model_idx_0.pdb")
Extracting metrics
python
import numpy as np
import json
# Load scores
with open('predictions/scores.json') as f:
scores = json.load(f)
plddt = np.load('predictions/plddt.npy')
pae = np.load('predictions/pae.npy')
print(f"pLDDT: {plddt.mean():.3f}")
print(f"pTM: {scores['ptm']:.3f}")
print(f"ipTM: {scores.get('iptm', 'N/A')}")
Use cases
Binder validation
python
# Predict complex with Chai
chai-lab predict --fasta binder_target.fasta --output val/
# Check ipTM > 0.5
scores = json.load(open('val/scores.json'))
if scores['iptm'] > 0.5:
print("Design passes validation")
Protein-ligand complex
python
# FASTA with SMILES fasta = """ >protein MKTA... >ligand|smiles CCO """ # Chai handles both protein and small molecules
Batch prediction
bash
# Multiple sequences
for fasta in sequences/*.fasta; do
chai-lab predict \
--fasta "$fasta" \
--output "predictions/$(basename $fasta .fasta)"
done
Comparison with AF2
| Aspect | Chai-1 | AlphaFold2 |
|---|---|---|
| MSA required | No | Yes |
| Small molecules | Yes | No |
| DNA/RNA | Yes | Limited |
| Speed | Faster | Slower |
| Accuracy | Comparable | Reference |
Sample output
Successful run
code
$ chai-lab predict --fasta complex.fasta --output predictions/
[INFO] Loading Chai-1 model...
[INFO] Running inference...
[INFO] Saved 5 models to predictions/
predictions/scores.json:
{
"ptm": 0.82,
"iptm": 0.71,
"ranking_score": 0.76
}
What good output looks like:
- •pTM: > 0.7 (confident global structure)
- •ipTM: > 0.5 (confident interface, > 0.7 for high confidence)
- •CIF files with reasonable atom positions
Decision tree
code
Should I use Chai? │ ├─ What are you predicting? │ ├─ Protein-protein complex → Chai ✓ or ColabFold │ ├─ Protein + small molecule → Chai ✓ │ ├─ Protein + DNA/RNA → Chai ✓ │ └─ Single protein only → Use ESMFold (faster) │ ├─ Need MSA? │ ├─ No / want speed → Chai ✓ │ └─ Yes / want accuracy → ColabFold │ └─ Priority? ├─ Highest accuracy → ColabFold with MSA ├─ Speed / no MSA → Chai ✓ └─ Ligand binding → Chai ✓
Typical performance
| Campaign Size | Time (A100) | Cost (Modal) | Notes |
|---|---|---|---|
| 100 complexes | 30-60 min | ~$10 | Standard validation |
| 500 complexes | 2-4h | ~$45 | Large campaign |
| 1000 complexes | 5-8h | ~$90 | Comprehensive |
Per-complex: ~20-40s for typical binder-target complex.
Verify
bash
find predictions -name "*.cif" | wc -l # Should match input count
Troubleshooting
Low pLDDT: Increase num_trunk_recycles Low ipTM: Check chain order, interface region OOM errors: Use A100-80GB or reduce batch Slow prediction: Reduce num_diffn_timesteps
Error interpretation
| Error | Cause | Fix |
|---|---|---|
RuntimeError: CUDA out of memory | Complex too large | Use A100-80GB or split prediction |
KeyError: 'iptm' | Single chain predicted | Ensure FASTA has multiple chains |
ValueError: invalid SMILES | Malformed ligand | Validate SMILES with RDKit |
torch.cuda.OutOfMemoryError | GPU exhausted | Reduce num_diffn_timesteps to 100 |
Next: protein-qc for filtering and ranking.