Hydration free energy calculations are often used to validate molecular simulation methodologies and molecular mechanics force fields. We use the free-energy perturbation method together with the AMOEBA polarizable force field and the Poltype parametrization protocol to predict the hydration free energies of 52 molecules as part of the SAMPL4 blind challenge. For comparison, similar calculations are performed using the non-polarizable General Amber force field. Against our expectations, the latter force field gives the better results compared to experiment. One possible explanation is the sensitivity of the AMOEBA results to the conformation used for parametrization
This dataset provides the parameters and results generated for the study "Evaluation of solvati...
This dataset provides the parameters and results generated for the study "Evaluation of solvation fr...
Molecular dynamics (MD) simulations studies have been performed on the aqueous solvation of the dipe...
Hydration free energy (HFE) calculations are often used to assess the performance of biomolecular fo...
An implicit solvent model described by a non-simple dielectric medium is used for the prediction of ...
Here, we give an overview of the small molecule hydration portion of the SAMPL4 challenge, which foc...
Abstract A protocol to generate parameters for the AMOEBA polarizable force field for small organic ...
Computer simulations of biomolecular systems often use force fields, which are combinations of simpl...
<div>Computer simulations of bio-molecular systems often use force fields, which are combinations of...
The free energy calculation library PLUMED has been incorporated into the OpenMM simulation toolkit,...
Molecular force fields have been approaching a generational transition over the past several years, ...
Molecular force fields have been approaching a generational transition over the past several years, ...
This dataset includes underlying data for the publication "Evaluating parameterization protoco...
We present our predictions for the SAMPL4 hydration free energy challenge. Extensive all-atom Monte ...
<p>This dataset includes underlying data for the publication "Evaluating<br> parameterization protoc...
This dataset provides the parameters and results generated for the study "Evaluation of solvati...
This dataset provides the parameters and results generated for the study "Evaluation of solvation fr...
Molecular dynamics (MD) simulations studies have been performed on the aqueous solvation of the dipe...
Hydration free energy (HFE) calculations are often used to assess the performance of biomolecular fo...
An implicit solvent model described by a non-simple dielectric medium is used for the prediction of ...
Here, we give an overview of the small molecule hydration portion of the SAMPL4 challenge, which foc...
Abstract A protocol to generate parameters for the AMOEBA polarizable force field for small organic ...
Computer simulations of biomolecular systems often use force fields, which are combinations of simpl...
<div>Computer simulations of bio-molecular systems often use force fields, which are combinations of...
The free energy calculation library PLUMED has been incorporated into the OpenMM simulation toolkit,...
Molecular force fields have been approaching a generational transition over the past several years, ...
Molecular force fields have been approaching a generational transition over the past several years, ...
This dataset includes underlying data for the publication "Evaluating parameterization protoco...
We present our predictions for the SAMPL4 hydration free energy challenge. Extensive all-atom Monte ...
<p>This dataset includes underlying data for the publication "Evaluating<br> parameterization protoc...
This dataset provides the parameters and results generated for the study "Evaluation of solvati...
This dataset provides the parameters and results generated for the study "Evaluation of solvation fr...
Molecular dynamics (MD) simulations studies have been performed on the aqueous solvation of the dipe...