Fast Equilibration of Water between Buried Sites and Bulk by MD with Parallel Monte Carlo Water Moves on GPUs

20 August 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Molecular dynamics (MD) simulations of proteins are commonly used to sample from the Boltzmann distribution of conformational states, with wide-ranging applications spanning chemistry, biophysics, and drug discovery. However, MD can be inefficient at equilibrating water occupancy for buried cavities in proteins that are inaccessible to the surrounding solvent. Indeed, the time needed for water molecules to equilibrate between bulk solvent and the binding site can be well beyond what is practical with standard MD, which typically ranges to hundreds of nanoseconds to low microseconds. We recently introduced a hybrid Monte Carlo/MD (MC/MD) method, which speeds up the equilibration of water between buried cavities and the surrounding solvent, while sampling from the thermodynamically correct distribution of states. While the initial implementation of the MC functionality led to considerable slowing of the overall simulations, here we address this problem with a parallel MC algorithm implemented on graphical processing units (GPUs). This results in speedups of 10-fold to 1000-fold over the original MC/MD algorithm, depending on the system and simulation parameters. The present method is available for use in the AMBER simulation software.

Keywords

Molecular Dynamics
Buried Cavities
Monte Carlo

Supplementary materials

Title
Description
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Title
Supporting Information, Fast Equilibration of Water between Buried Sites and Bulk by MD with Parallel Monte Carlo Water Moves on GPUs
Description
Comparison of the new parallel Monte Carlo with our previous serial Monte Carlo (as implemented in AMBER 20)
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Supplementary weblinks

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