Protein fold recognition based on multi-view modeling

判别式 折叠(高阶函数) 水准点(测量) 计算机科学 蛋白质结构预测 人工智能 卡斯普 机器学习 模式识别(心理学) 蛋白质结构 生物 大地测量学 生物化学 程序设计语言 地理
作者
Ke Yan,Xiaozhao Fang,Yong Xu,Bin Liu
出处
期刊:Bioinformatics [Oxford University Press]
卷期号:35 (17): 2982-2990 被引量:60
标识
DOI:10.1093/bioinformatics/btz040
摘要

Abstract Motivation Protein fold recognition has attracted increasing attention because it is critical for studies of the 3D structures of proteins and drug design. Researchers have been extensively studying this important task, and several features with high discriminative power have been proposed. However, the development of methods that efficiently combine these features to improve the predictive performance remains a challenging problem. Results In this study, we proposed two algorithms: MV-fold and MT-fold. MV-fold is a new computational predictor based on the multi-view learning model for fold recognition. Different features of proteins were treated as different views of proteins, including the evolutionary information, secondary structure information and physicochemical properties. These different views constituted the latent space. The ε-dragging technique was employed to enlarge the margins between different protein folds, improving the predictive performance of MV-fold. Then, MV-fold was combined with two template-based methods: HHblits and HMMER. The ensemble method is called MT-fold incorporating the advantages of both discriminative methods and template-based methods. Experimental results on five widely used benchmark datasets (DD, RDD, EDD, TG and LE) showed that the proposed methods outperformed some state-of-the-art methods in this field, indicating that MV-fold and MT-fold are useful computational tools for protein fold recognition and protein homology detection and would be efficient tools for protein sequence analysis. Finally, we constructed an update and rigorous benchmark dataset based on SCOPe (version 2.07) to fairly evaluate the performance of the proposed method, and our method achieved stable performance on this new dataset. This new benchmark dataset will become a widely used benchmark dataset to fairly evaluate the performance of different methods for fold recognition. Supplementary information Supplementary data are available at Bioinformatics online.

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