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A “stepping stone” approach for obtaining quantum free energies of hydration

A “stepping stone” approach for obtaining quantum free energies of hydration
A “stepping stone” approach for obtaining quantum free energies of hydration
We present a method which uses DFT (quantum, QM) calculations to improve free energies of binding computed with classical force fields (classical, MM). To overcome the incomplete overlap of configurational spaces between MM and QM, we use a hybrid Monte Carlo approach to generate quickly correct ensembles of structures of intermediate states between a MM and a QM/MM description, hence taking into account a great fraction of the electronic polarization of the quantum system, while being able to use thermodynamic integration to compute the free energy of transition between the MM and QM/MM. Then, we perform a final transition from QM/MM to full QM using a one-step free energy perturbation approach. By using QM/MM as a stepping stone toward the full QM description, we find very small convergence errors (<1 kJ/mol) in the transition to full QM. We apply this method to compute hydration free energies, and we obtain consistent improvements over the MM values for all molecules we used in this study. This approach requires large-scale DFT calculations as the full QM systems involved the ligands and all waters in their simulation cells, so the linear-scaling DFT code ONETEP was used for these calculations.
1520-6106
7030-7040
Sampson, Christopher
3ad464fd-b274-4f9e-98e4-a84aebb9d1b5
Fox, Thomas
04c97900-df28-4af0-a7ca-62e5efcfcaba
Tautermann, Christofer S.
f35b4fb9-df35-4e57-8d68-8e20b5a177fd
Woods, Christopher
9798a687-ff7e-4717-b81a-2d503cd23c37
Skylaris, Chris
8f593d13-3ace-4558-ba08-04e48211af61
Sampson, Christopher
3ad464fd-b274-4f9e-98e4-a84aebb9d1b5
Fox, Thomas
04c97900-df28-4af0-a7ca-62e5efcfcaba
Tautermann, Christofer S.
f35b4fb9-df35-4e57-8d68-8e20b5a177fd
Woods, Christopher
9798a687-ff7e-4717-b81a-2d503cd23c37
Skylaris, Chris
8f593d13-3ace-4558-ba08-04e48211af61

Sampson, Christopher, Fox, Thomas, Tautermann, Christofer S., Woods, Christopher and Skylaris, Chris (2015) A “stepping stone” approach for obtaining quantum free energies of hydration. The Journal of Physical Chemistry B, 119 (23), 7030-7040. (doi:10.1021/acs.jpcb.5b01625). (PMID:25985723)

Record type: Article

Abstract

We present a method which uses DFT (quantum, QM) calculations to improve free energies of binding computed with classical force fields (classical, MM). To overcome the incomplete overlap of configurational spaces between MM and QM, we use a hybrid Monte Carlo approach to generate quickly correct ensembles of structures of intermediate states between a MM and a QM/MM description, hence taking into account a great fraction of the electronic polarization of the quantum system, while being able to use thermodynamic integration to compute the free energy of transition between the MM and QM/MM. Then, we perform a final transition from QM/MM to full QM using a one-step free energy perturbation approach. By using QM/MM as a stepping stone toward the full QM description, we find very small convergence errors (<1 kJ/mol) in the transition to full QM. We apply this method to compute hydration free energies, and we obtain consistent improvements over the MM values for all molecules we used in this study. This approach requires large-scale DFT calculations as the full QM systems involved the ligands and all waters in their simulation cells, so the linear-scaling DFT code ONETEP was used for these calculations.

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Published date: 11 June 2015
Organisations: Computational Systems Chemistry

Identifiers

Local EPrints ID: 396145
URI: http://eprints.soton.ac.uk/id/eprint/396145
DOI: doi:10.1021/acs.jpcb.5b01625
ISSN: 1520-6106
PURE UUID: 2e51b206-0a80-4e77-aac8-8d95359a7f55
ORCID for Chris Skylaris: ORCID iD orcid.org/0000-0003-0258-3433

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Date deposited: 07 Jun 2016 08:43
Last modified: 15 Mar 2024 03:26

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Contributors

Author: Christopher Sampson
Author: Thomas Fox
Author: Christofer S. Tautermann
Author: Christopher Woods
Author: Chris Skylaris ORCID iD

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