Journal ArticleDOI
Including image charge effects in the molecular dynamics simulations of molecules on metal surfaces.
Federico Iori,Stefano Corni +1 more
TLDR
This article presents a simple approach to introduce metal polarization effects (often termed image effects) in MD simulations by exploiting standard features of bio‐oriented MD codes such as the widely used GROMACS and NAMD.Abstract:
Combinatorial bio-techniques have demonstrated that proteins can be good and even selective binders for several inorganic surfaces, including metals. However, the understanding of the basic physical mechanisms that govern such interactions did not keep up with the success in these experiments. The comprehension of such mechanisms would greatly benefit from the computational investigation of the problem. Because of the complexity of the system, classical molecular dynamics simulations based on an atomistic description appear to be the best compromise between reliability and feasibility. For proteins interacting with metal surfaces, however, methodological improvements with respect to standard Molecular Dynamics (MD) of proteins are needed, since the polarization of the metal induced by the protein (and the surrounding water) is not generally negligible. In this article, we present a simple approach to introduce metal polarization effects (often termed image effects) in MD simulations by exploiting standard features of bio-oriented MD codes such as the widely used GROMACS and NAMD. Tests to show the reliability of the proposed methods are presented, and the results for a model application showing the importance of image effects are also discussed.read more
Citations
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Journal ArticleDOI
Metal Ion Modeling Using Classical Mechanics
Pengfei Li,Kenneth M. Merz +1 more
TL;DR: This Review focuses on classical metal ion modeling based on unpolarized models (including the nonbonded, bonded, cationic dummy atom, and combined models), polarizable models, and valence bond-based models.
Journal ArticleDOI
GolP: an atomistic force-field to describe the interaction of proteins with Au(111) surfaces in water.
TL;DR: Results of GolP on an independent test set of small molecules show the good performances of the force field, and gold polarization (image charge effects) is taken into account by a recently proposed procedure.
Journal ArticleDOI
GolP-CHARMM: First-Principles Based Force Fields for the Interaction of Proteins with Au(111) and Au(100).
TL;DR: A force field, GolP-CHARMM, designed to capture peptide adsorption at both the aqueous Au(111) and Au(100) interfaces is presented, compatible with the bio-organic force field CHARMM, and parametrized using a combination of experimental and first-principles data.
Journal ArticleDOI
Interaction of amino acids with the Au(111) surface: adsorption free energies from molecular dynamics simulations.
TL;DR: A strong dependence of the binding affinities on the chemical character of the amino acids is found and the interaction free energy is correlated with the propensity of amino acids to form beta-sheets, hinting at design principles for gold binding peptides and induction of beta-sheet formation near surfaces.
Journal ArticleDOI
Modelling of graphene functionalization
TL;DR: This perspective briefly describes the available theoretical methods and models for simulating graphene functionalization based on quantum and classical mechanics and provides numerous examples showing how computational methods have provided new insights into the physical and chemical features of complex systems including graphene and graphene derivatives.
References
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VMD: Visual molecular dynamics
TL;DR: VMD is a molecular graphics program designed for the display and analysis of molecular assemblies, in particular biopolymers such as proteins and nucleic acids, which can simultaneously display any number of structures using a wide variety of rendering styles and coloring methods.
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Molecular dynamics with coupling to an external bath.
TL;DR: In this paper, a method is described to realize coupling to an external bath with constant temperature or pressure with adjustable time constants for the coupling, which can be easily extendable to other variables and to gradients, and can be applied also to polyatomic molecules involving internal constraints.
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Particle mesh Ewald: An N⋅log(N) method for Ewald sums in large systems
TL;DR: An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is presented based on interpolation of the reciprocal space Ewald sums and evaluation of the resulting convolutions using fast Fourier transforms.
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Canonical dynamics: Equilibrium phase-space distributions
TL;DR: The dynamical steady-state probability density is found in an extended phase space with variables x, p/sub x/, V, epsilon-dot, and zeta, where the x are reduced distances and the two variables epsilus-dot andZeta act as thermodynamic friction coefficients.
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A smooth particle mesh Ewald method
TL;DR: It is demonstrated that arbitrary accuracy can be achieved, independent of system size N, at a cost that scales as N log(N), which is comparable to that of a simple truncation method of 10 A or less.