Thermodynamic stability of folded proteins against mutations
Abstract
By balancing the average energy gap with its typical change due to mutations for protein-like heteropolymers with M residues, we show that native states are unstable to mutations on a scale M* ~ (lambda/sigmamu)(1/zetas), where lambda is the dispersion in the interaction free energies and sigmamu their typical change. Theoretical bounds and numerical estimates (based on complete enumeration on four lattices) of the instability exponent zetas are given. Our analysis suggests that a limiting size of single-domain proteins should exist, and leads to the prediction that small proteins are insensitive to random mutations.
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