Deep learning for variational multiscale molecular modeling

被引:11
|
作者
Zhang, Jun [1 ,2 ]
Lei, Yao-Kun [3 ]
Yang, Yi Isaac [1 ]
Gao, Yi Qin [1 ,3 ,4 ,5 ]
机构
[1] Shenzhen Bay Lab, Inst Syst & Phys Biol, Shenzhen 518055, Peoples R China
[2] Free Univ Berlin, Dept Math & Comp Sci, Arnimalee 6, D-14195 Berlin, Germany
[3] Peking Univ, Coll Chem & Mol Engn, Beging Natl Lab Mol Sci, Beijing 100871, Peoples R China
[4] Peking Univ, Beijing Adv Innovat Ctr Genom, Beijing 100871, Peoples R China
[5] Peking Univ, Biomed Pioneering Innovat Ctr, Beijing 100871, Peoples R China
来源
JOURNAL OF CHEMICAL PHYSICS | 2020年 / 153卷 / 17期
基金
中国国家自然科学基金;
关键词
MONTE-CARLO; PROTEINS; DYNAMICS;
D O I
10.1063/5.0026836
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Molecular simulations are widely applied in the study of chemical and bio-physical problems. However, the accessible timescales of atomistic simulations are limited, and extracting equilibrium properties of systems containing rare events remains challenging. Two distinct strategies are usually adopted in this regard: either sticking to the atomistic level and performing enhanced sampling or trading details for speed by leveraging coarse-grained models. Although both strategies are promising, either of them, if adopted individually, exhibits severe limitations. In this paper, we propose a machine-learning approach to ally both strategies so that simulations on different scales can benefit mutually from their crosstalks: Accurate coarse-grained (CG) models can be inferred from the fine-grained (FG) simulations through deep generative learning; in turn, FG simulations can be boosted by the guidance of CG models via deep reinforcement learning. Our method defines a variational and adaptive training objective, which allows end-to-end training of parametric molecular models using deep neural networks. Through multiple experiments, we show that our method is efficient and flexible and performs well on challenging chemical and bio-molecular systems.
引用
收藏
页数:12
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