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General Features of Molecular Dynamics Methods

In a molecular dynamics simulation the classical equations of motion for the solute (biopolymer) and solvent atoms, if treated explicitly, are integrated numerically i.e., Newton s equations of motion, [Pg.33]

Several algorithms for integrating the equations of motion in Cartesian co- [Pg.34]

All of the simulation approaches, other than harmonic dynamics, include the basic elements that we have outlined. They differ in the equations of motion that are solved (Newton s equations, Langevin equations, etc.), the specific treatment of the solvent, and/or the procedures used to take account of the time scale associated with a particular process of interest (molecular dynamics, activated dynamics, etc.). For example, the first application of molecular dynamics to proteins considered the molecule in vacuum.15 These calculations, while ignoring solvent effects, provided key insights into the important role of flexibility in biological function. Many of the results described in Chapts. VI-VIII were obtained from such vacuum simulations. Because of the importance of the solvent to the structure and other properties of biomolecules, much effort is now concentrated on systems in which the macromolecule is surrounded by solvent or other many-body environments, such as a crystal. [Pg.35]


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