Hydration Free Energies of Polypeptides from Popular Implicit Solvent Models versus All-Atom Simulation Results Based on Molecular Quasichemical Theory

Abstract: Calculating the hydration free energy of a macromolecule in all-atom simulations has long remained a challenge, necessitating the use of models wherein the effect of the solvent is captured without explicit account of solvent degrees of freedom. This situation has changed with developments in the molecular quasi-chemical theory (QCT)�an approach that enables calculation of the hydration free energy of macromolecules within all-atom simulations at the same resolution as is possible for small molecular solutes. … Show more

“…We compare this to implicit-solvent molecular simulations, which exhibit qualitative agreement with experimental data. In particular, the GB/SA model, , which better treats the collective properties of hydration as compared to the ABSINTH implicit solvent model, better captures experimentally determined R g as well. (GB/SA and ABSINTH are briefly explained in the SI.)…”

Influence of Charge Block Length on Conformation and Solution Behavior of Polyampholytes

“…We compare this to implicit-solvent molecular simulations, which exhibit qualitative agreement with experimental data. In particular, the GB/SA model, , which better treats the collective properties of hydration as compared to the ABSINTH implicit solvent model, better captures experimentally determined R g as well. (GB/SA and ABSINTH are briefly explained in the SI.)…”

Influence of Charge Block Length on Conformation and Solution Behavior of Polyampholytes

Solvation-free energy of uncharged and charged water-soluble synthetic polymer using adaptive Poisson-Boltzmann solver: poly(acrylic acid)