Non-Markovian Configurational Diffusion and Reaction Coordinates for
  Protein Folding

A. M. Berezhkovskii; A. Šali; D. Klimov; E. DiMarzio; E. M. Boczko; E. Pollak; E. Pollak; J. D. Bryngelson; J. N. Onuchic; J. N. Onuchic; J. Wang; J.-P. Bouchaud; K. A. Dill; M. F. Shlesinger; N. D. Socci; P. G. Wolynes; Peter G. Wolynes; R. Du; R. F. Grote; R. Zwanzig; S. S. Plotkin; Steven S. Plotkin; W. H. Miller

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Non-Markovian Configurational Diffusion and Reaction Coordinates for Protein Folding

Authors: A. M. Berezhkovskii
A. Šali
D. Klimov
E. DiMarzio
E. M. Boczko
E. Pollak
E. Pollak
J. D. Bryngelson
J. N. Onuchic
J. N. Onuchic
J. Wang
J.-P. Bouchaud
K. A. Dill
M. F. Shlesinger
N. D. Socci
P. G. Wolynes
Peter G. Wolynes
R. Du
R. F. Grote
R. Zwanzig
S. S. Plotkin
Steven S. Plotkin
W. H. Miller
Publication date: 21 November 1997
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The non-Markovian nature of polymer motions is accounted for in folding kinetics, using frequency-dependent friction. Folding, like many other problems in the physics of disordered systems, involves barrier crossing on a correlated energy landscape. A variational transition state theory (VTST) that reduces to the usual Bryngelson-Wolynes Kramers approach when the non-Markovian aspects are neglected is used to obtain the rate, without making any assumptions regarding the size of the barrier, or the memory time of the friction. The transformation to collective variables dependent on the dynamics of the system allows the theory to address the controversial issue of what are ``good'' reaction coordinates for folding.Comment: 9 pages RevTeX, 3 eps-figures included, submitted to PR

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