Journal
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
Volume 14, Issue 11, Pages 5797-5814Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jctc.8b00413
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Funding
- NIH [GM107104]
- NSF Petascale Computational Resource (PRAC) Award [OCI-1036208]
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We propose a pairwise and readily parallelizable SASA-based nonpolar solvation approach for protein simulations, inspired by our previous pairwise GB polar solvation model development. In this work, we developed a novel function to estimate the atomic and molecular SASAs of proteins, which results in comparable accuracy as the LCPO algorithm in reproducing numerical icosahedral-based SASA values. Implemented in Amber software and tested on consumer GPUs, our pwSASA method reasonably reproduces LCPO simulation results, but accelerates MD simulations up to 30 times compared to the LCPO implementation, which is greatly desirable for protein simulations facing sampling challenges. The value of incorporating the nonpolar term in implicit solvent simulations is explored on a peptide fragment containing the hydrophobic core of HP36 and evaluating thermal stability profiles of four small proteins.
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