Title of article
Dielectric properties of proteins from simulations: tools and techniques Original Research Article
Author/Authors
Thomas Simonson، نويسنده , , David Perahia، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 1995
Pages
13
From page
291
To page
303
Abstract
Tools and techniques to analyze the dielectric properties of proteins are described. Microscopic dielectric properties are determined by a susceptibility tensor of order 3n, where n is the number of protein atoms. For perturbing charges not too close to the protein, the dielectric relaxation free energy is directly related to the dipole-dipole correlation matrix of the unperturbed protein, or equivalently to the covariance matrix of its atomic displacements. These are straightforward to obtain from existing molecular dynamics packages such as Charmm or X-plor.
Macroscopic dielectric properties can be derived from the dipolar fluctuations of the protein, by idealizing the protein as one or more spherical media. The dipolar fluctuations are again directly related to the covariance matrix of the atomic displacements. An interesting consequence is that the quasiharmonic approximation, which by definition exactly reproduces this covariance matrix, gives the protein dielectric constant exactly.Finally a technique is reviewed to obtain normal or quasinormal modes of vibration of symmetric protein assemblies. Using elementary group theory, and eliminating the high-frequency modes of vibration of each monomer, the limiting step in terms of memory and computation is finding the normal modes of a single monomer, with the other monomers held fixed. This technique was used to study the dielectric properties of the Tobacco Mosaic Virus protein disk.
Keywords
Protein simulations , Dielectric properties
Journal title
Computer Physics Communications
Serial Year
1995
Journal title
Computer Physics Communications
Record number
1133922
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