Abstract
The role of water in protein dynamics has been investigated using molecular dynamics simulations of crystals and a dehydrated powder. On the time scale, the anharmonic and diffusive motions involved in the protein structural relaxation are correlated with the protein-water hydrogen bond dynamics. The complete structural relaxation of the protein requires relaxation of the hydrogen bond network via solvent translational displacement. Inhibiting the solvent translational mobility, and therefore the protein-water hydrogen bond dynamics, has an effect on the protein relaxation similar to dehydration.
- Received 14 September 2001
DOI:https://doi.org/10.1103/PhysRevLett.88.138101
©2002 American Physical Society