Ugo Bastolla, Helge Frauenkron, Erwin Gerstner, Peter Grassberger, Walter Nadler
Published 1997-10-02Version 1
We demonstrate that the recently proposed pruned-enriched Rosenbluth method PERM (P. Grassberger, Phys. Rev. E, in press (1997)) leads to extremely efficient algorithms for the folding of simple model proteins. We test it on several models for lattice heteropolymers, and compare to published Monte Carlo studies of the properties of particular sequences. In all cases our method is faster than the previous ones, and in several cases we find new minimal energy states. In addition to producing more reliable candidates for ground states, our method gives detailed information about the thermal spectrum and, thus, allows to analyze static aspects of the folding behavior of arbitrary sequences.
Comments: 13 pages, RevTeX, needs epsfig.sty and multicolum.sty
Journal: Proteins: Structure, Function, and Genetics Vol. 32 (1998) 52--66
A New Monte Carlo Algorithm for Protein Folding
A dynamical approach to protein folding
Kinetics of the Wako-Saito-Munoz-Eaton Model of Protein Folding
