In continuum approaches to molecular electrostatics, the boundary element method (BEM) can provide accurate solutions to the Poisson-Boltzmann equation. However, the numerical aspects of this method pose significant problems. We describe our approach, applying an alpha shape-based method to generate a high-quality mesh, which represents the shape and topology of the molecule precisely. We also describe an analytical method for mapping points from the planar mesh to their exact locations on the surface of the molecule. We demonstrate that derivative boundary integral formulation has numerical advantages over the nonderivative formulation: the well-conditioned influence matrix can be maintained without deterioration of the condition number wh...
urface formulations of biophysical modeling problems offer attractive theoretical and computational ...
.ABSTRACT: A fast multigrid boundary element MBE method for solving the Poisson equation for macromo...
Abstract: Implicit solvent models based on the Poisson-Boltzmann (PB) equation are frequently used t...
In continuum approaches to molecular electrostatics, the boundary element method (BEM) can provide a...
Abstract: A patch representation differing from the traditional treatments in the boundary element m...
A rigorous approach is proposed to calculate the electrostatic forces among an arbitrary number of s...
This article summarizes the development of a fast boundary element method for the linear Poisson-Bol...
Abstract. Electrostatics interactions play a major role in the stabilization of biomolecules: as suc...
The electrostatic interaction among molecules solvated in ionic solution is governed by the Poisson-...
Electrostatic interactions are vital for many aspects of biomolecular structure and function, includ...
[[abstract]]Most biochemical processes involve macromolecules in solution. The corresponding electro...
textIn this study, we consider electrostatics contributed from the molecules in the ionic solution. ...
We describe a three-stage procedure to analyze the dependence of Poisson Boltzmann calculations on t...
The Boundary Element Method (BEM), a numerical method developed in engineering fields, is capable of...
We describe a three-stage procedure to analyze the dependence of Poisson Boltzmann calculations on t...
urface formulations of biophysical modeling problems offer attractive theoretical and computational ...
.ABSTRACT: A fast multigrid boundary element MBE method for solving the Poisson equation for macromo...
Abstract: Implicit solvent models based on the Poisson-Boltzmann (PB) equation are frequently used t...
In continuum approaches to molecular electrostatics, the boundary element method (BEM) can provide a...
Abstract: A patch representation differing from the traditional treatments in the boundary element m...
A rigorous approach is proposed to calculate the electrostatic forces among an arbitrary number of s...
This article summarizes the development of a fast boundary element method for the linear Poisson-Bol...
Abstract. Electrostatics interactions play a major role in the stabilization of biomolecules: as suc...
The electrostatic interaction among molecules solvated in ionic solution is governed by the Poisson-...
Electrostatic interactions are vital for many aspects of biomolecular structure and function, includ...
[[abstract]]Most biochemical processes involve macromolecules in solution. The corresponding electro...
textIn this study, we consider electrostatics contributed from the molecules in the ionic solution. ...
We describe a three-stage procedure to analyze the dependence of Poisson Boltzmann calculations on t...
The Boundary Element Method (BEM), a numerical method developed in engineering fields, is capable of...
We describe a three-stage procedure to analyze the dependence of Poisson Boltzmann calculations on t...
urface formulations of biophysical modeling problems offer attractive theoretical and computational ...
.ABSTRACT: A fast multigrid boundary element MBE method for solving the Poisson equation for macromo...
Abstract: Implicit solvent models based on the Poisson-Boltzmann (PB) equation are frequently used t...