Entropic Barriers, Frustration and Order: Basic Ingredients in Protein
  Folding

C. B. Anfinsen; C. J. Camacho; C. J. Camacho; C. J. Camacho; C. Levinthal; Carlos J. Camacho; D. Thirumalai; E. I. Shakhnovich; E. I. Shakhnovich; E. Shankhnovich; H. Taketomi; J. D. Bryngelson; K. A. Dill; K. Chiba; M. E. Fisher; N. D. Socci; P G. Wolynes; P. L. Privalov; R. J. Ellis; R. Zwanzig; S. Miyazawa; T. E. Creighton; T. Garel; V. I. Abkevich

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Entropic Barriers, Frustration and Order: Basic Ingredients in Protein Folding

Authors: C. B. Anfinsen
C. J. Camacho
C. J. Camacho
C. J. Camacho
C. Levinthal
Carlos J. Camacho
D. Thirumalai
E. I. Shakhnovich
E. I. Shakhnovich
E. Shankhnovich
H. Taketomi
J. D. Bryngelson
K. A. Dill
K. Chiba
M. E. Fisher
N. D. Socci
P G. Wolynes
P. L. Privalov
R. J. Ellis
R. Zwanzig
S. Miyazawa
T. E. Creighton
T. Garel
V. I. Abkevich
Publication date: 4 December 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We solve a model that takes into account entropic barriers, frustration, and the organization of a protein-like molecule. For a chain of size

M

, there is an effective folding transition to an ordered structure. Without frustration, this state is reached in a time that scales as

M^{\lambda}

, with

\lambda\simeq 3

. This scaling is limited by the amount of frustration which leads to the dynamical selectivity of proteins: foldable proteins are limited to

\sim 300

monomers; and they are stable in {\it one} range of temperatures, independent of size and structure. These predictions explain generic properties of {\it in vivo} proteins.Comment: 4 pages, 4 Figures appended as postscript fil

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