g_mmpbsa—A GROMACS Tool for High-Throughput MM-PBSA Calculations

溶剂化 可达表面积 溶剂模型 分子动力学 隐溶剂化 化学 计算化学 萨萨 计算科学 统计物理学 溶剂 计算机科学 物理 古生物学 有机化学 生物
作者
Rashmi Kumari,Rajendra Kumar,Open Source Drug Discovery Consortium,Andrew Lynn
出处
期刊:Journal of Chemical Information and Modeling [American Chemical Society]
卷期号:54 (7): 1951-1962 被引量:4696
标识
DOI:10.1021/ci500020m
摘要

Molecular mechanics Poisson-Boltzmann surface area (MM-PBSA), a method to estimate interaction free energies, has been increasingly used in the study of biomolecular interactions. Recently, this method has also been applied as a scoring function in computational drug design. Here a new tool g_mmpbsa, which implements the MM-PBSA approach using subroutines written in-house or sourced from the GROMACS and APBS packages is described. g_mmpbsa was developed as part of the Open Source Drug Discovery (OSDD) consortium. Its aim is to integrate high-throughput molecular dynamics (MD) simulations with binding energy calculations. The tool provides options to select alternative atomic radii and different nonpolar solvation models including models based on the solvent accessible surface area (SASA), solvent accessible volume (SAV), and a model which contains both repulsive (SASA-SAV) and attractive components (described using a Weeks-Chandler-Andersen like integral method). We showcase the effectiveness of the tool by comparing the calculated interaction energy of 37 structurally diverse HIV-1 protease inhibitor complexes with their experimental binding free energies. The effect of varying several combinations of input parameters such as atomic radii, dielectric constant, grid resolution, solute-solvent dielectric boundary definition, and nonpolar models was investigated. g_mmpbsa can also be used to estimate the energy contribution per residue to the binding energy. It has been used to identify those residues in HIV-1 protease that are most critical for binding a range of inhibitors.
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