AugmentClaude
Apache-2.0SimulationML

DiffDock

Predict 3D binding poses for small molecules in protein structures.

Installation

  1. Make sure Claude is on your device and in your terminal.

    Skills load from ~/.claude/skills/ when Claude Code starts up — so you need it on your machine first. If you don't have it yet, install it once with the command below, then run claude in any terminal to verify.

    One-time setup
    npm i -g @anthropic-ai/claude-code

    Already have it? Skip ahead.

  2. Paste into Claude Code or into your terminal.

    This copies the whole skill folder into ~/.claude/skills/diffdock-xuzhougeng/ — the SKILL.md plus any scripts, reference docs, or templates the skill ships with. Safe default: works for every skill.

    Faster alternative (instruction-only skills)

    Skips the clone and grabs only the SKILL.md file. Don't use this if the skill ships Python scripts, reference markdowns, or asset templates — they won't be downloaded and the skill will fail when it tries to load them.

    Quick install (SKILL.md only)
    Sign up to copy
  3. Restart Claude Code.

    Quit and reopen Claude Code (or any other agent that loads from ~/.claude/skills/). New skills are picked up on startup.

  4. Just ask Claude.

    Skills auto-activate when your request matches the skill's description — no slash command needed. Trigger phrases live in the skill's own frontmatter; you can read them in the “What this skill does” section above.

Prefer to read the source first? Open on GitHub.

When Claude uses it

Predict small-molecule binding poses with DiffDock-L (Corso et al. 2023/2024, github.com/gcorso/DiffDock) — blind diffusion docking that places a ligand into a protein pocket without a predefined search box and ranks the samples with a learned confidence model. Reach for this skill to dock a SMILES or SDF against a PDB, to generate ranked 3D poses for a small fragment library, or to get a starting pose for downstream rescoring. DiffDock predicts geometry, not affinity.

What this skill does

DiffDock-L

DiffDock-L is a blind pose predictor: given a protein structure and a ligand, it samples ligand placements over the whole surface with a diffusion model and ranks them with a separately trained confidence head. The confidence score correlates with pose correctness, not with binding free energy — DiffDock does not predict whether or how tightly the ligand binds, so for hit triage you still pair it with a scorer (GNINA, MM-GBSA) or with boltz's affinity head. For protein–protein and nucleic-acid co-folding, route to boltz or chai1. Code and weights are MIT (github.com/gcorso/DiffDock).

Running it

cd $DIFFDOCK_REPO   # a clone of github.com/gcorso/DiffDock
python3 -m inference \
  --config default_inference_args.yaml \
  --protein_path target.pdb \
  --ligand_description "COc1ccc(C#N)cc1" \
  --out_dir out

For more than one complex, give --protein_ligand_csv batch.csv instead of the two single-complex flags; the CSV has four columns — complex_name, protein_path, ligand_description (SMILES or an .sdf/.mol2 path), and protein_sequence. Leave protein_path empty and fill protein_sequence to have DiffDock fold the receptor with ESMFold first; that path and a larger-library screening recipe are in references/workflows.md.

Under --out_dir/<complex_name>/ each sample is written as rank{N}_confidence{score}.sdf, plus a copy of rank1.sdf for convenience. The confidence value in the filename is a logit, so it is unbounded and can be negative; among samples for the same complex higher is better, but values are not comparable across different complexes or ligands.

The YAML config overwrites your CLI flags

inference.py loads --config default_inference_args.yaml after argparse and replaces every key it finds, so passing --samples_per_complex 40 or --model_dir ... on the command line is silently ignored if the same key sits in the YAML. To change sampling depth or any other key the YAML defines, copy the YAML, edit the copy, and point --config at it.

The first run is silent for ~11 minutes and needs ≥32 GB host RAM

Before the first complex, DiffDock precomputes SO(3) and torus lookup tables. That step is silent on stderr, takes ~11 minutes, and on the default Modal tier runs out of host memory and SIGKILLs mid-precompute. Set provider_params.modal.memory: 65536 (or your provider's equivalent), and do not assume a hang means a crash.

The README's --ligand works on the CLI by accident — use --ligand_description

The upstream README shows --ligand, which only works because argparse prefix-matches it to the real flag --ligand_description. That shortcut is CLI-only: as a CSV column header or YAML key, ligand matches nothing and the row is silently treated as having no ligand. Spell the flag and the column header out in full.

Errors worth recognizing

You seeIt means / do this
ValueError: not allowed to raise maximum limit at startupsetrlimit(NOFILE, 64000) exceeds the sandbox hard limit — sed the constant in inference.py to min(64000, rlimit[1]).
Silent SIGKILL a few minutes into the SO(3) precomputeHost RAM exhausted — see the gotcha above.
python3: not foundYou are on the upstream rbgcsail/diffdock image — that one runs from /home/appuser/DiffDock under micromamba.

Next: rescore the rank1.sdf poses before ranking ligands against each other — boltz's affinity head is the in-tree option — since the DiffDock confidence head alone is not an affinity predictor.

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