Multiscale guidance of AlphaFold3 with heterogeneous cryo-EM data

Protein structure prediction models are now capable of generating accurate 3D structural hypotheses from sequence alone. However, they routinely fail to capture the conformational diversity of dynamic biomolecular complexes, often requiring heuristic MSA subsampling approaches for generating alternative states. In parallel, cryo-electron microscopy (cryo-EM) has emerged as a powerful tool for imaging near-native structural heterogeneity, but is challenged by arduous pipelines to go from raw experimental data to atomic models. Here, we bridge the gap between these modalities, combining cryo-EM density maps with the rich sequence and biophysical priors learned by protein structure prediction models. Our method, CryoBoltz, guides the sampling trajectory of a pretrained protein structure prediction model using both global and local structural constraints derived from density maps, driving predictions towards conformational states consistent with the experimental data. We demonstrate that this flexible yet powerful inference-time approach allows us to build atomic models into heterogeneous cryo-EM maps across a variety of dynamic biomolecular systems including transporters and antibodies.

@article{raghu2025_2506.04490,
  title={ Multiscale guidance of AlphaFold3 with heterogeneous cryo-EM data },
  author={ Rishwanth Raghu and Axel Levy and Gordon Wetzstein and Ellen D. Zhong },
  journal={arXiv preprint arXiv:2506.04490},
  year={ 2025 }
}