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On-the-fly Numerical Surface Integration for Finite-Difference Poisson-Boltzmann Methods

机译：在即时的有限差分泊松 - 玻尔兹曼方法数值表面一体化

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摘要

Most implicit solvation models require the definition of a molecular surface as the interface that separates the solute in atomic detail from the solvent approximated as a continuous medium. Commonly used surface definitions include the solvent accessible surface (SAS), the solvent excluded surface (SES), and the van der Waals surface. In this study, we present an efficient numerical algorithm to compute the SES and SAS areas to facilitate the applications of finite-difference Poisson-Boltzmann methods in biomolecular simulations. Different from previous numerical approaches, our algorithm is physics-inspired and intimately coupled to the finite-difference Poisson-Boltzmann methods to fully take advantage of its existing data structures. Our analysis shows that the algorithm can achieve very good agreement with the analytical method in the calculation of the SES and SAS areas. Specifically, in our comprehensive test of 1,555 molecules, the average unsigned relative error is 0.27% in the SES area calculations and 1.05% in the SAS area calculations at the grid spacing of 1/2Å. In addition, a systematic correction analysis can be used to improve the accuracy for the coarse-grid SES area calculations, with the average unsigned relative error in the SES areas reduced to 0.13%. These validation studies indicate that the proposed algorithm can be applied to biomolecules over a broad range of sizes and structures. Finally, the numerical algorithm can also be adapted to evaluate the surface integral of either a vector field or a scalar field defined on the molecular surface for additional solvation energetics and force calculations.

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期刊名称 other
作者
Qin Cai; Xiang Ye; Jun Wang; Ray Luo;
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年(卷),期 -1(7),11
年度 -1
页码 3608–3619
总页数 31
原文格式 PDF
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专利

1. On-the-Fly Numerical Surface Integration for Finite-Difference Poisson-Boltzmann Methods [J] . Qin Cai, Xiang Ye, Jun Wang Journal of chemical theory and computation: JCTC . 2011,第11期

机译：有限差分Poisson-Boltzmann方法的实时数值表面积分
2. A numerical integration technique for conservative oscillators combining nonstandard finite-difference methods with a Hamilton's principle [J] . Mickens RE Journal of Sound and Vibration . 2005,第1a2期

机译：保守振荡器的数值积分技术，将非标准有限差分方法与汉密尔顿原理相结合
3. Roles of boundary conditions in DNA simulations: analysis of ion distributions with the finite-difference Poisson-Boltzmann method. [J] . Ye X, Cai Q, Yang W Biophysical Journal . 2009,第2期

机译：边界条件在DNA模拟中的作用：使用有限差分Poisson-Boltzmann方法分析离子分布。
4. Numerical study on the effect of wind on sound propagation over sea surface by finite-difference time-domain method [C] . Takatoshi Yokota, Koichi Makino, Ippei Yamamoto International congress on exposition noise control engineering . 2018

机译：时域有限差分法研究风对海面声传播影响的数值研究
5. Poisson-Boltzmann Methods Numerical Strategies and Applications [D] . Cai, Qin 2013

机译：Poisson-Boltzmann方法数值策略和应用
6. Acceleration of Linear Finite-Difference Poisson-Boltzmann Methods on Graphics Processing Units [O] . Ruxi Qi, Wesley M. Botello-Smith, Ray Luo -1

机译：图形处理单元上线性有限差分泊松-玻尔兹曼方法的加速
7. On-the-Fly Numerical Surface Integration for Finite-Difference Poisson–Boltzmann Methods [O] . Qin Cai, Xiang Ye, Jun Wang, 2011

机译：有限差异泊松博尔兹曼方法的现行数值整体
8. Introduction to finite-difference methods for numerical fluid dynamics [R] . Scannapieco, E. , Harlow, F. H. 1995

机译：数值流体动力学的有限差分方法介绍

On-the-fly Numerical Surface Integration for Finite-Difference Poisson-Boltzmann Methods

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