A force fields-based multi-scale docking method in drug molecular design

机译：基于力场的多尺度对接方法在药物分子设计中的应用

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摘要

A force fields-based multi-scale docking method is proposed in this paper. Molecular docking problem has been divided into three sub problems: rigid-rigid phase, flexible-flexible phase and flexible-rigid phase. Residue groups of protein have been adopted to describe the conformation of protein. K-mean clustering algorithm and genetic algorithm have been developed to solve the optimization problem. A new docking program, which relies on calculated non-bonded interaction terms between protein and ligand atoms based on standard force fields, has been developed. In comparison with other docking methods, the docking method has significant improvement in docking accuracy.

机译：提出了一种基于力场的多尺度对接方法。分子对接问题已分为三个子问题：刚性-刚性相，柔性-柔性相和柔性-刚性相。已采用蛋白质的残基基团来描述蛋白质的构象。为了解决优化问题，已经开发了K-mean聚类算法和遗传算法。已经开发了一种新的对接程序，该程序依赖于基于标准力场计算的蛋白质与配体原子之间的非键合相互作用项。与其他对接方法相比，该对接方法在对接精度上有显着提高。

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来源
《2014 IEEE International Conference on Security, Pattern Analysis, and Cybernetics》|2014年|139-142|共4页
会议地点 Wuhan(CN)
作者
Kang Ling; Liu Zhengyu; Guo Quan;
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作者单位

Department of Computer Science and Technology, Dalian Neusoft University of Information, Dalian, China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Accuracy; Clustering algorithms; Decision support systems; Force; Genetic algorithms; Optimization; Proteins; Force field; Genetic Algorithms; K-mean; Multi-scale Docking Method; Residue Groups;

机译：精度;聚类算法;决策支持系统;力;遗传算法;优化;蛋白质;力场;遗传算法; K-均值;多尺度对接法;残基;;

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A force fields-based multi-scale docking method in drug molecular design

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