Phase diagram of a semiflexible polymer chain in a θ solvent: application to protein folding
Abstract
We consider a lattice model of a semiflexible homopolymer chain in a bad solvent. Beside the temperature T, this model is described by (i) a curvature energy h, representing the stiffness of the chain (ii) a nearest-neighbour attractive energy v, representing the solvent (iii) the monomer density =N , where N and denote respectively the number of monomers and the number of lattice sites. This model is a simplified view of the protein folding problem, which encompasses the geometrical competition between secondary structures (the curvature term modelling helix formation) and the global compactness (modeled here by the attractive energy), but contains no side chain information...
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