English

SE(3) diffusion model with application to protein backbone generation

Machine Learning 2023-05-24 v3 Quantitative Methods Machine Learning

Abstract

The design of novel protein structures remains a challenge in protein engineering for applications across biomedicine and chemistry. In this line of work, a diffusion model over rigid bodies in 3D (referred to as frames) has shown success in generating novel, functional protein backbones that have not been observed in nature. However, there exists no principled methodological framework for diffusion on SE(3), the space of orientation preserving rigid motions in R3, that operates on frames and confers the group invariance. We address these shortcomings by developing theoretical foundations of SE(3) invariant diffusion models on multiple frames followed by a novel framework, FrameDiff, for learning the SE(3) equivariant score over multiple frames. We apply FrameDiff on monomer backbone generation and find it can generate designable monomers up to 500 amino acids without relying on a pretrained protein structure prediction network that has been integral to previous methods. We find our samples are capable of generalizing beyond any known protein structure.

Keywords

Cite

@article{arxiv.2302.02277,
  title  = {SE(3) diffusion model with application to protein backbone generation},
  author = {Jason Yim and Brian L. Trippe and Valentin De Bortoli and Emile Mathieu and Arnaud Doucet and Regina Barzilay and Tommi Jaakkola},
  journal= {arXiv preprint arXiv:2302.02277},
  year   = {2023}
}
R2 v1 2026-06-28T08:32:10.888Z