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HEPOM: Using Graph Neural Networks for the Accelerated Predictions of Hydrolysis Free Energies in Different pH Conditions

水解 图形 人工神经网络 化学 计算机科学 生物系统 人工智能 有机化学 理论计算机科学 生物
作者
Rishabh D. Guha,Santiago Vargas,Evan Walter Clark Spotte‐Smith,Alexander R. Epstein,Maxwell C. Venetos,Ryan Kingsbury,Mingjian Wen,Samuel M. Blau,Kristin A. Persson
出处
期刊:Journal of Chemical Information and Modeling [American Chemical Society]
卷期号:65 (8): 3963-3975
标识
DOI:10.1021/acs.jcim.4c02443
摘要

Hydrolysis is a fundamental family of chemical reactions where water facilitates the cleavage of bonds. The process is ubiquitous in biological and chemical systems, owing to water's remarkable versatility as a solvent. However, accurately predicting the feasibility of hydrolysis through computational techniques is a difficult task, as subtle changes in reactant structure like heteroatom substitutions or neighboring functional groups can influence the reaction outcome. Furthermore, hydrolysis is sensitive to the pH of the aqueous medium, and the same reaction can have different reaction properties at different pH conditions. In this work, we have combined reaction templates and high-throughput ab initio calculations to construct a diverse data set of hydrolysis free energies. The developed framework automatically identifies reaction centers, generates hydrolysis products, and utilizes a trained graph neural network (GNN) model to predict ΔG values for all potential hydrolysis reactions in a given molecule. The long-term goal of the work is to develop a data-driven, computational tool for high-throughput screening of pH-specific hydrolytic stability and the rapid prediction of reaction products, which can then be applied in a wide array of applications including chemical recycling of polymers and ion-conducting membranes for clean energy generation and storage.
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