We introduce a variational approximation to the microscopic dynamics of rare conformational transitions of macromolecules. Within this framework it is possible to simulate on a small computer cluster reactions as complex as protein folding, using state of the art all-atom force fields in explicit solvent. We test this method against MD simulations of the folding of an α and a β protein performed with the same all-atom force field on the Anton supercomputer. We find that our approach yields results consistent with those of MD simulations, at a computational cost orders of magnitude smaller.
A Beccara, S., Fant, L., Faccioli, P. (2015). Variational scheme to compute protein reaction pathways using atomistic force fields with explicit solvent. PHYSICAL REVIEW LETTERS, 114(9) [10.1103/PhysRevLett.114.098103].
Variational scheme to compute protein reaction pathways using atomistic force fields with explicit solvent
Faccioli, Pietro
2015
Abstract
We introduce a variational approximation to the microscopic dynamics of rare conformational transitions of macromolecules. Within this framework it is possible to simulate on a small computer cluster reactions as complex as protein folding, using state of the art all-atom force fields in explicit solvent. We test this method against MD simulations of the folding of an α and a β protein performed with the same all-atom force field on the Anton supercomputer. We find that our approach yields results consistent with those of MD simulations, at a computational cost orders of magnitude smaller.
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