Brownian dynamics (BD) simulations can be used to study very large molecular systems, such as models of the intracellular environment, using atomic-detail structures. Such simulations require strategies to contain the computational costs, especially for the computation of interaction forces and energies. A common approach is to compute interaction forces between macromolecules by precomputing their interaction potentials on three-dimensional discretized grids. For long-range interactions, such as electrostatics, grid-based methods are subject to finite size errors. We describe here the implementation of a Debye-Hückel correction to the grid-based electrostatic potential used in the SDA BD simulation software that was applied to simulate solutions of bovine serum albumin and of hen egg white lysozyme.
Revised: September 29, 2015 |
Published: June 17, 2014
Citation
Mereghetti P., M. Martinez, and R.C. Wade. 2014.Long Range Debye-Hückel Correction for Computation of Grid-based Electrostatic Forces Between Biomacromolecules.BMC Biophysics 7, no. 4. doi:10.1186/2046-1682-7-4