分子动力学
计算机科学
蛋白质-配体对接
能量分布
对接(动物)
软件
力场(虚构)
启发式
自动停靠
计算科学
算法
能量(信号处理)
计算化学
化学
人工智能
物理
程序设计语言
虚拟筛选
医学
量子力学
基因
护理部
生物化学
生物信息学
作者
Jiří Filipovič,Ondřej Vávra,Jan Plhák,David Bednář,Sérgio M. Marques,Jan Brezovský,Luděk Matyska,Jiřı́ Damborský
标识
DOI:10.1109/tcbb.2019.2907492
摘要
Here we present a novel method for the analysis of transport processes in proteins and its implementation called CaverDock. Our method is based on a modified molecular docking algorithm. It iteratively places the ligand along the access tunnel in such a way that the ligand movement is contiguous and the energy is minimized. The result of CaverDock calculation is a ligand trajectory and an energy profile of transport process. CaverDock uses the modified docking program Autodock Vina for molecular docking and implements a parallel heuristic algorithm for searching the space of possible trajectories. Our method lies in between the geometrical approaches and molecular dynamics simulations. Contrary to the geometrical methods, it provides an evaluation of chemical forces. However, it is far less computationally demanding and easier to set up compared to molecular dynamics simulations. CaverDock will find a broad use in the fields of computational enzymology, drug design, and protein engineering. The software is available free of charge to the academic users at https://loschmidt.chemi.muni.cz/caverdock/.
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