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Solvation energetics of proteins and their aggregates analyzed by all-atom molecular dynamics simulations and the energy-representation theory of solvation

Nobuyuki Matubayasi

2021Chemical Communications12 citationsDOI

Abstract

Solvation is a controlling factor for the structure and function of proteins. This article addresses the effects of solvation from an energetic perspective for the fluctuations and cosolvent-induced changes in protein structures and the equilibrium of aggregate formation for a peptide. A theoretical framework to analyze the solvation effects with an explicit solvent is introduced by adopting the energy-representation theory of solvation, and the connection of the solvation free energy to the protein structure and the aggregation tendency is quantitatively described in combination with all-atom molecular dynamics simulations. The interaction components that govern the solvation effects on the structural variations of proteins are further identified through correlation analysis, and a computational scheme to assess the shift of an aggregation equilibrium due to the addition of a cosolvent is provided.

Topics & Concepts

SolvationEnergeticsMolecular dynamicsImplicit solvationAtom (system on chip)ChemistryChemical physicsRepresentation (politics)Computational chemistryDynamics (music)MoleculeThermodynamicsPhysicsComputer scienceOrganic chemistryPolitical sciencePoliticsEmbedded systemAcousticsLawProtein Structure and DynamicsSpectroscopy and Quantum Chemical StudiesEnzyme Structure and Function
Solvation energetics of proteins and their aggregates analyzed by all-atom molecular dynamics simulations and the energy-representation theory of solvation | Litcius