Book ChapterDOI
Interaction Models for Water in Relation to Protein Hydration
Hjc Berendsen,J. P. M. Postma,W. F. van Gunsteren,Jan Hermans +3 more
- pp 331-342
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TLDR
In this article, a three-point charge model (on hydrogen and oxygen positions) with a Lennard-Jones 6-12 potential on the oxygen positions only was developed, and parameters for the model were determined from 12 molecular dynamics runs covering the two-dimensional parameter space of charge and oxygen repulsion.Abstract:
For molecular dynamics simulations of hydrated proteins a simple yet reliable model for the intermolecular potential for water is required. Such a model must be an effective pair potential valid for liquid densities that takes average many-body interactions into account. We have developed a three-point charge model (on hydrogen and oxygen positions) with a Lennard-Jones 6–12 potential on the oxygen positions only. Parameters for the model were determined from 12 molecular dynamics runs covering the two-dimensional parameter space of charge and oxygen repulsion. Both potential energy and pressure were required to coincide with experimental values. The model has very satisfactory properties, is easily incorporated into protein-water potentials, and requires only 0.25 sec computertime per dynamics step (for 216 molecules) on a CRAY-1 computer.read more
Citations
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Journal ArticleDOI
Quantum Dynamics of an Excess Proton in Water Using an Extended Empirical Valence-Bond Hamiltonian
TL;DR: In this paper, the classical and quantum dynamics of an excess proton in water are studied by molecular dynamics simulations and the electronic structure of the system is described by an extended multistate valence-bond Hamiltonian that allows for the breaking and formation of O−H+ bonds.
Journal ArticleDOI
Constant pH Molecular Dynamics in Explicit Solvent with λ-Dynamics.
TL;DR: This work presents a method, implemented within the MD package GROMACS, for constant pH molecular dynamics simulations in explicit solvent that is based on the λ-dynamics approach, which allows the protonated states of titratable groups to change dynamically during a simulation, thus reproducing average protonation probabilities at a certain pH.
Journal ArticleDOI
Multiple pathways guide oxygen diffusion into flavoenzyme active sites
Riccardo Baron,Conor T. Riley,Pirom Chenprakhon,Kittisak Thotsaporn,Remko T. Winter,Andrea Alfieri,Federico Forneris,Willem J. H. van Berkel,Pimchai Chaiyen,Marco W. Fraaije,Andrea Mattevi,J. Andrew McCammon +11 more
TL;DR: This study indicates that monooxygenase and oxidase flavoenzymes employ multiple funnel-shaped diffusion pathways to absorb O2 from the solvent and direct it to the reacting C4a atom of the flavin cofactor.
Journal ArticleDOI
Free energy of a trans-membrane pore calculated from atomistic molecular dynamics simulations.
TL;DR: Atomistic molecular dynamics simulations of a lipid bilayer were performed to calculate the free energy of a trans-membrane pore as a function of its radius, which shows a quadratic shape for a radius less than about 0.3 nm, a linear shape for larger radii, and a rather abrupt change without local minima or maxima between the two regions.
Journal ArticleDOI
Diffusion of solvent around biomolecular solutes: a molecular dynamics simulation study.
TL;DR: The nature and the magnitude of the solute effects on water diffusion appear to be very similar for protein and DNA decamer, and the overall diffusion rate at the interface is lower than in the bulk.
References
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Journal ArticleDOI
Numerical Integration of the Cartesian Equations of Motion of a System with Constraints: Molecular Dynamics of n-Alkanes
TL;DR: In this paper, a numerical algorithm integrating the 3N Cartesian equations of motion of a system of N points subject to holonomic constraints is formulated, and the relations of constraint remain perfectly fulfilled at each step of the trajectory despite the approximate character of numerical integration.
Book
The Structure and Properties of Water
David Eisenberg,Walter Kauzmann +1 more
TL;DR: The Water Molecule 2 The Real Vapour 3. Ice 4. Properties of Liquid Water 5. Models for Liquid Water Addendum as mentioned in this paper, which is an extension of the model presented in this paper.
Journal ArticleDOI
Dynamics of folded proteins
TL;DR: The dynamics of a folded globular protein have been studied by solving the equations of motion for the atoms with an empirical potential energy function and suggest that the protein interior is fluid-like in that the local atom motions have a diffusional character.
Journal ArticleDOI
Algorithms for macromolecular dynamics and constraint dynamics
TL;DR: In this paper, the authors investigated the application of the computer simulation method of molecular dynamics to macromolecules and compared different algorithms for integrating the equations of motion, both theoretically and in practice.