Here we present a theoretical-computational study of the thermodynamics and kinetics of an aqueous Trp-cage, a 20-residue long miniprotein. The combined use of accurate molecular dynamics simulations rigorously reconstructing the proper isobar of the system and a sound statistical-mechanical model provides a quantitative description of the temperature dependence of the relevant physical-chemical properties and insights into the detailed mechanisms regulating the folding-unfolding properties.
D'Abramo, M., Del Galdo, S., Amadei, A. (2019). Theoretical-computational modelling of the temperature dependence of the folding-unfolding thermodynamics and kinetics: The case of a trp-cage. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 21(41), 23162-23168 [10.1039/c9cp03303c].
Theoretical-computational modelling of the temperature dependence of the folding-unfolding thermodynamics and kinetics: The case of a trp-cage
Del Galdo S.;Amadei A.
2019-01-01
Abstract
Here we present a theoretical-computational study of the thermodynamics and kinetics of an aqueous Trp-cage, a 20-residue long miniprotein. The combined use of accurate molecular dynamics simulations rigorously reconstructing the proper isobar of the system and a sound statistical-mechanical model provides a quantitative description of the temperature dependence of the relevant physical-chemical properties and insights into the detailed mechanisms regulating the folding-unfolding properties.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
