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Literature DB >> 19383445

The Fip35 WW domain folds with structural and mechanistic heterogeneity in molecular dynamics simulations.

Abstract

We describe molecular dynamics simulations resulting in the folding the Fip35 Hpin1 WW domain. The simulations were run on a distributed set of graphics processors, which are capable of providing up to two orders of magnitude faster computation than conventional processors. Using the Folding@home distributed computing system, we generated thousands of independent trajectories in an implicit solvent model, totaling over 2.73 ms of simulations. A small number of these trajectories folded; the folding proceeded along several distinct routes and the system folded into two distinct three-stranded beta-sheet conformations, showing that the folding mechanism of this system is distinctly heterogeneous.

Mesh：

Substances：
Solvents

Year: 2009 PMID： 19383445 PMCID： PMC2718323 DOI： 10.1016/j.bpj.2009.01.024

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

9 in total

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Authors: Mark S Friedrichs; Peter Eastman; Vishal Vaidyanathan; Mike Houston; Scott Legrand; Adam L Beberg; Daniel L Ensign; Christopher M Bruns; Vijay S Pande
Journal: J Comput Chem Date: 2009-04-30 Impact factor: 3.376

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Journal: Biopolymers Date: 1983-12 Impact factor: 2.505

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Authors: Alexey Onufriev; Donald Bashford; David A Case
Journal: Proteins Date: 2004-05-01

9 in total

31 in total

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2. Dominant folding pathways of a WW domain.

Authors: Silvio A Beccara; Tatjana Škrbić; Roberto Covino; Pietro Faccioli
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3. Three force fields' views of the 3(10) helix.

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