From Collapse to Freezing in Random Heteropolymers

Abstract

We consider a two-letter self-avoiding (square) lattice heteropolymer model of NH (out ofN) attracting sites. At zero temperature, permanent links are formed leading to collapse structures for any fraction rhoH=NH/N. The average chain size scales as R = N1/dF(rhoH) (d is space dimension). As rhoH --> 0, F(rhoH) ~ rhoHz with z=1/d-nu=-1/4 for d=2. Moreover, for 0 < rhoH < 1, entropy approaches zero as N --> infty (being finite for a homopolymer). An abrupt decrease in entropy occurs at the phase boundary between the swollen (R ~ Nnu) and collapsed region. Scaling arguments predict different regimes depending on the ensemble of crosslinks. Some implications to the protein folding problem are discussed.

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