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Article Dans Une Revue Journal of Computer-Aided Molecular Design Année : 2021

Precise force-field-based calculations of octanol-water partition coefficients for the SAMPL7 molecules

Résumé

We predicted water-octanol partition coefficients for the molecules in the SAMPL7 challenge with explicit solvent classical molecular dynamics (MD) simulations. Water hydration free energies and octanol solvation free energies were calculated with a windowed alchemical free energy approach. Three commonly used force fields (AMBER GAFF, CHARMM CGenFF, OPLS-AA) were tested. Special emphasis was placed on converging all simulations, using a criterion developed for the SAMPL6 challenge. In aggregate, over 1000 [Formula: see text]s of simulations were performed, with some free energy windows remaining not fully converged even after 1 [Formula: see text]s of simulation time. Nevertheless, the amount of sampling produced [Formula: see text] estimates with a precision of 0.1 log units or better for converged simulations. Despite being probably as fully sampled as can expected and is feasible, the agreement with experiment remained modest for all force fields, with no force field performing better than 1.6 in root mean squared error. Overall, our results indicate that a large amount of sampling is necessary to produce precise [Formula: see text] predictions for the SAMPL7 compounds and that high precision does not necessarily lead to high accuracy. Thus, fundamental problems remain to be solved for physics-based [Formula: see text] predictions.
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Dates et versions

hal-03335100 , version 1 (05-09-2021)

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Shujie Fan, Hristo Nedev, Ranjit Vijayan, Bogdan Iorga, Oliver Beckstein. Precise force-field-based calculations of octanol-water partition coefficients for the SAMPL7 molecules. Journal of Computer-Aided Molecular Design, 2021, 35 (7), pp.853-870. ⟨10.1007/s10822-021-00407-4⟩. ⟨hal-03335100⟩
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