Adapting Co-Folding Models for Structure-Based Protein-Protein Docking Through Flow Matching
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OA: closed
Abstract
Co-folding models like AlphaFold have revolutionized protein complex structure prediction, yet their reliance on multiple sequence alignments (MSAs) limits their applicability on challenging targets such as antibody-antigen complexes. An alternative approach, structure-based protein-protein docking, predicts the complex structure from the unbound monomer structures without requiring MSAs. In this work, we propose a novel method to adapt co-folding models for structure-based docking by replacing their template module with a docking module, followed by training end-to-end with a flow-matching objective. We apply our method to AlphaFold-Multimer (AF-M) using the OpenFold implementation and transform it into a generative docking model, which we name AF2Dock. We evaluate AF2Dock on the PINDER-AF2 benchmark and an antibody/nanobody test set, and demonstrate that AF2Dock consistently performs competitively or outperforms other structure-based docking methods when using non-holo inputs, especially in the case of antibody and nanobody complexes. Although AF2Dock underperforms co-folding AF-M and AF3 in success rates when using non-holo inputs, it produces orthogonal predictions and successfully identifies correct structures for targets where co-folding models fail. Ablation studies confirm that full-parameter fine-tuning of the AF-M components is critical for performance and reveal that, surprisingly, the inclusion of ESM embeddings can hinder success rates in certain cases. The code is available at https://github.com/Graylab/AF2Dock .
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00