Kinetics of the Wako-Saitô-Muñoz-Eaton model of protein folding

Marco Zamparo; Alessandro Pelizzola

doi:10.1103/PhysRevLett.97.068106

Kinetics of the Wako-Saitô-Muñoz-Eaton model of protein folding

Marco Zamparo
, Alessandro Pelizzola

Research output: Contribution to journal › Article › peer-review

Abstract

We consider a simplified model of protein folding, with binary degrees of freedom, whose equilibrium thermodynamics is exactly solvable. Based on this exact solution, the kinetics is studied in the framework of a local equilibrium approach, for which we prove that (i) the free energy decreases with time, (ii) the exact equilibrium is recovered in the infinite time limit, and (iii) the equilibration rate is an upper bound of the exact one. The kinetics is compared to the exact one for a small peptide and to Monte Carlo simulations for a longer protein; then rates are studied for a real protein and a model structure.

Original language	English
Article number	068106
Journal	Physical Review Letters
Volume	97
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevLett.97.068106
Publication status	Published - 2006
Externally published	Yes

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10.1103/PhysRevLett.97.068106

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abstract = "We consider a simplified model of protein folding, with binary degrees of freedom, whose equilibrium thermodynamics is exactly solvable. Based on this exact solution, the kinetics is studied in the framework of a local equilibrium approach, for which we prove that (i) the free energy decreases with time, (ii) the exact equilibrium is recovered in the infinite time limit, and (iii) the equilibration rate is an upper bound of the exact one. The kinetics is compared to the exact one for a small peptide and to Monte Carlo simulations for a longer protein; then rates are studied for a real protein and a model structure.",

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AB - We consider a simplified model of protein folding, with binary degrees of freedom, whose equilibrium thermodynamics is exactly solvable. Based on this exact solution, the kinetics is studied in the framework of a local equilibrium approach, for which we prove that (i) the free energy decreases with time, (ii) the exact equilibrium is recovered in the infinite time limit, and (iii) the equilibration rate is an upper bound of the exact one. The kinetics is compared to the exact one for a small peptide and to Monte Carlo simulations for a longer protein; then rates are studied for a real protein and a model structure.

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Kinetics of the Wako-Saitô-Muñoz-Eaton model of protein folding

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