14569019

pubmed:Citation

22

Proteins are complex molecules, yet their folding kinetics is often fast (microseconds) and simple, involving only a single exponential function of time (called two-state kinetics). The main model for two-state kinetics has been transition-state theory, where an energy barrier defines a slow step to reach an improbable structure. But how can barriers explain fast processes, such as folding? We study a simple model with rigorous kinetics that explains the high speed instead as a result of the microscopic parallelization of folding trajectories. The single exponential results from a separation of timescales; the parallelization of routes is high at the start of folding and low thereafter. The ensemble of rate-limiting chain conformations is different from in transition-state theory; it is broad, overlaps with the denatured state, is not aligned along a single reaction coordinate, and involves well populated, rather than improbable, structures.

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http://linkedlifedata.com/resource/pubmed/journal/7505876

http://linkedlifedata.com/resource/pubmed/chemical/Proteins

Oct

pubmed-author:DillKen AKA, pubmed-author:SchonbrunJackJ

28

NLM

12678-82

pubmed-meshheading:14569019-Kinetics, pubmed-meshheading:14569019-Protein Conformation, pubmed-meshheading:14569019-Protein Denaturation, pubmed-meshheading:14569019-Protein Folding, pubmed-meshheading:14569019-Proteins

Fast protein folding kinetics.

Journal Article, Research Support, U.S. Gov't, P.H.S., Research Support, Non-U.S. Gov't