Literature DB >> 25580096

Polarizable Mean-Field Model of Water for Biological Simulations with Amber and Charmm force fields.

Igor V Leontyev1, Alexei A Stuchebrukhov1.   

Abstract

Although a great number of computational models of water are available today, the majority of current biological simulations are done with simple models, such as TIP3P and SPC, developed almost thirty years ago and only slightly modified since then. The reason is that the non-polarizable force fields that are mostly used to describe proteins and other biological molecules are incompatible with more sophisticated modern polarizable models of water. The issue is electronic polarizability: in liquid state, in protein, and in vacuum the water molecule is polarized differently, and therefore has different properties; thus the only way to describe all these different media with the same model is to use a polarizable water model. However, to be compatible with the force field of the rest of the system, e.g. a protein, the latter should be polarizable as well. Here we describe a novel model of water that is in effect polarizable, and yet compatible with the standard non-polarizable force fields such as AMBER, CHARMM, GROMOS, OPLS, etc. Thus the model resolves the outstanding problem of incompatibility.

Entities:  

Year:  2012        PMID: 25580096      PMCID: PMC4285689          DOI: 10.1021/ct300011h

Source DB:  PubMed          Journal:  J Chem Theory Comput        ISSN: 1549-9618            Impact factor:   6.006


  18 in total

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Authors:  Martin Karplus
Journal:  Acc Chem Res       Date:  2002-06       Impact factor: 22.384

Review 2.  Molecular dynamics simulations of biomolecules.

Authors:  Martin Karplus; J Andrew McCammon
Journal:  Nat Struct Biol       Date:  2002-09

3.  CHARMM fluctuating charge force field for proteins: II protein/solvent properties from molecular dynamics simulations using a nonadditive electrostatic model.

Authors:  Sandeep Patel; Alexander D Mackerell; Charles L Brooks
Journal:  J Comput Chem       Date:  2004-09       Impact factor: 3.376

Review 4.  Accounting for electronic polarization in non-polarizable force fields.

Authors:  Igor Leontyev; Alexei Stuchebrukhov
Journal:  Phys Chem Chem Phys       Date:  2011-01-07       Impact factor: 3.676

5.  Molecular simulations of outersphere reorganization energies in polar and quadrupolar solvents. The case of intramolecular electron and hole transfer.

Authors:  M V Vener; A V Tovmash; I V Rostov; M V Basilevsky
Journal:  J Phys Chem B       Date:  2006-08-03       Impact factor: 2.991

6.  Dipolar correlations and the dielectric permittivity of water.

Authors:  Manu Sharma; Raffaele Resta; Roberto Car
Journal:  Phys Rev Lett       Date:  2007-06-13       Impact factor: 9.161

7.  Electronic continuum model for molecular dynamics simulations.

Authors:  I V Leontyev; A A Stuchebrukhov
Journal:  J Chem Phys       Date:  2009-02-28       Impact factor: 3.488

8.  Gating of proton and water transfer in the respiratory enzyme cytochrome c oxidase.

Authors:  Mårten Wikström; Camilla Ribacka; Mika Molin; Liisa Laakkonen; Michael Verkhovsky; Anne Puustinen
Journal:  Proc Natl Acad Sci U S A       Date:  2005-07-13       Impact factor: 11.205

9.  Electronic Polarizability and the Effective Pair Potentials of Water.

Authors:  I V Leontyev; A A Stuchebrukhov
Journal:  J Chem Theory Comput       Date:  2010-10-12       Impact factor: 6.006

10.  Determination of alkali and halide monovalent ion parameters for use in explicitly solvated biomolecular simulations.

Authors:  In Suk Joung; Thomas E Cheatham
Journal:  J Phys Chem B       Date:  2008-07-02       Impact factor: 2.991
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  15 in total

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Authors:  Ondřej Kroutil; Milan Předota; Martin Kabeláč
Journal:  J Mol Model       Date:  2017-10-28       Impact factor: 1.810

Review 2.  Metal Ion Modeling Using Classical Mechanics.

Authors:  Pengfei Li; Kenneth M Merz
Journal:  Chem Rev       Date:  2017-01-03       Impact factor: 60.622

3.  Molecular dynamics simulations of plutonium binding and its decorporation from the binding-cleft of human serum transferrin.

Authors:  Lokpati Mishra; Mahesh Sundararajan; Tusar Bandyopadhyay
Journal:  J Biol Inorg Chem       Date:  2020-01-24       Impact factor: 3.358

4.  Polarizable molecular interactions in condensed phase and their equivalent nonpolarizable models.

Authors:  Igor V Leontyev; Alexei A Stuchebrukhov
Journal:  J Chem Phys       Date:  2014-07-07       Impact factor: 3.488

5.  Ion-induced alterations of the local hydration environment elucidate Hofmeister effect in a simple classical model of Trp-cage miniprotein.

Authors:  Z Násztor; A Dér; F Bogár
Journal:  J Mol Model       Date:  2017-09-27       Impact factor: 1.810

6.  Systematic Evaluation of Ion Diffusion and Water Exchange.

Authors:  Zhen Li; Kenneth M Merz
Journal:  J Chem Theory Comput       Date:  2022-04-14       Impact factor: 6.578

7.  A Kirkwood-Buff derived force field for alkaline earth halide salts.

Authors:  Nawavi Naleem; Nikolaos Bentenitis; Paul E Smith
Journal:  J Chem Phys       Date:  2018-06-14       Impact factor: 3.488

8.  Putative membrane lytic sites of P-type and S-type cardiotoxins from snake venoms as probed by all-atom molecular dynamics simulations.

Authors:  Biswajit Gorai; Muthusamy Karthikeyan; Thirunavukkarasu Sivaraman
Journal:  J Mol Model       Date:  2016-09-15       Impact factor: 1.810

9.  Polarization Effects in Water-Mediated Selective Cation Transport across a Narrow Transmembrane Channel.

Authors:  Van Ngo; Hui Li; Alexander D MacKerell; Toby W Allen; Benoît Roux; Sergei Noskov
Journal:  J Chem Theory Comput       Date:  2021-02-04       Impact factor: 6.006

10.  Dipole Moment and Binding Energy of Water in Proteins from Crystallographic Analysis.

Authors:  A Morozenko; I V Leontyev; A A Stuchebrukhov
Journal:  J Chem Theory Comput       Date:  2014-09-15       Impact factor: 6.006
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