CasANGCL: pre-training and fine-tuning model based on cascaded attention network and graph contrastive learning for molecular property prediction

可解释性 计算机科学 编码 图形 人工智能 财产(哲学) 分子图 机器学习 软件可移植性 一般化 代表(政治) 方案(数学) 人工神经网络 注意力网络 特征学习 理论计算机科学 数据挖掘 数学 哲学 数学分析 政治学 化学 认识论 程序设计语言 法学 基因 政治 生物化学
作者
Zixi Zheng,Yanyan Tan,Hong Wang,Shengpeng Yu,Tianyu Liu,Cheng Liang
出处
期刊:Briefings in Bioinformatics [Oxford University Press]
卷期号:24 (1) 被引量:21
标识
DOI:10.1093/bib/bbac566
摘要

Abstract Motivation Molecular property prediction is a significant requirement in AI-driven drug design and discovery, aiming to predict the molecular property information (e.g. toxicity) based on the mined biomolecular knowledge. Although graph neural networks have been proven powerful in predicting molecular property, unbalanced labeled data and poor generalization capability for new-synthesized molecules are always key issues that hinder further improvement of molecular encoding performance. Results We propose a novel self-supervised representation learning scheme based on a Cascaded Attention Network and Graph Contrastive Learning (CasANGCL). We design a new graph network variant, designated as cascaded attention network, to encode local–global molecular representations. We construct a two-stage contrast predictor framework to tackle the label imbalance problem of training molecular samples, which is an integrated end-to-end learning scheme. Moreover, we utilize the information-flow scheme for training our network, which explicitly captures the edge information in the node/graph representations and obtains more fine-grained knowledge. Our model achieves an 81.9% ROC-AUC average performance on 661 tasks from seven challenging benchmarks, showing better portability and generalizations. Further visualization studies indicate our model’s better representation capacity and provide interpretability.
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