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Poster
Predicting Molecular Conformation via Dynamic Graph Score Matching
Shitong Luo · Chence Shi · Minkai Xu · Jian Tang

Wed Dec 08 12:30 AM -- 02:00 AM (PST) @ None #None
in Poster Session 3 »

Predicting stable 3D conformations from 2D molecular graphs has been a long-standing challenge in computational chemistry. Recently, machine learning approaches have demonstrated very promising results compared to traditional experimental and physics-based simulation methods. These approaches mainly focus on modeling the local interactions between neighboring atoms on the molecular graphs and overlook the long-range interactions between non-bonded atoms. However, these non-bonded atoms may be proximal to each other in 3D space, and modeling their interactions is of crucial importance to accurately determine molecular conformations, especially for large molecules and multi-molecular complexes. In this paper, we propose a new approach called Dynamic Graph Score Matching (DGSM) for molecular conformation prediction, which models both the local and long-range interactions by dynamically constructing graph structures between atoms according to their spatial proximity during both training and inference. Specifically, the DGSM directly estimates the gradient fields of the logarithm density of atomic coordinates according to the dynamically constructed graphs using score matching methods. The whole framework can be efficiently trained in an end-to-end fashion. Experiments across multiple tasks show that the DGSM outperforms state-of-the-art baselines by a large margin, and it is capable of generating conformations for a broader range of systems such as proteins and multi-molecular complexes.

Keywords: Machine Learning · Generative Model · Graph Learning

Author Information

Shitong Luo (Peking University)
Chence Shi (University of Montreal)
Minkai Xu (University of Montreal)
Jian Tang (Mila)

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