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Accurate determination of solvation free energies of neutral organic compounds from first principles

Leonid Pereyaslavets, Ganesh Kamath, Oleg Butin, Alexey Illarionov, Michael Olevanov, Igor V. Kurnikov, Serzhan Sakipov, Igor Leontyev, Е. Н. Воронина, Tyler Gannon, Grzegorz Nawrocki, Mikhail Darkhovskiy, Ilya Ivahnenko, Alexander Kostikov, Jessica Scaranto, Maria G. Kurnikova, Suvo Banik, Henry Chan, Michael Sternberg, Subramanian K. R. S. Sankaranarayanan, Brad Crawford, Jeffrey J. Potoff, Michael Levitt, Roger D. Kornberg, Boris Fain

2022Nature Communications43 citationsDOIOpen Access PDF

Abstract

The main goal of molecular simulation is to accurately predict experimental observables of molecular systems. Another long-standing goal is to devise models for arbitrary neutral organic molecules with little or no reliance on experimental data. While separately these goals have been met to various degrees, for an arbitrary system of molecules they have not been achieved simultaneously. For biophysical ensembles that exist at room temperature and pressure, and where the entropic contributions are on par with interaction strengths, it is the free energies that are both most important and most difficult to predict. We compute the free energies of solvation for a diverse set of neutral organic compounds using a polarizable force field fitted entirely to ab initio calculations. The mean absolute errors (MAE) of hydration, cyclohexane solvation, and corresponding partition coefficients are 0.2 kcal/mol, 0.3 kcal/mol and 0.22 log units, i.e. within chemical accuracy. The model (ARROW FF) is multipolar, polarizable, and its accompanying simulation stack includes nuclear quantum effects (NQE). The simulation tools' computational efficiency is on a par with current state-of-the-art packages. The construction of a wide-coverage molecular modelling toolset from first principles, together with its excellent predictive ability in the liquid phase is a major advance in biomolecular simulation.

Topics & Concepts

SolvationPolarizabilityObservableStatistical physicsImplicit solvationCyclohexaneMoleculeAb initioMolecular dynamicsForce field (fiction)ChemistryChemical physicsComputational chemistryPhysicsThermodynamicsQuantum mechanicsOrganic chemistryProtein Structure and DynamicsSpectroscopy and Quantum Chemical StudiesAdvanced NMR Techniques and Applications
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