Add to ORKGWe have used a standard Fröhlich-Kirkwood dipole moment fluctuation model to calculate the static dielectric permittivity, epsilon(0), for four different proteins, each of which was simulated under at least two different conditions of pH, temperature, solvation, or ligand binding. For the range of proteins and conditions studied, we calculate values for epsilon(0) between 15 and 40. Our results show, in agreement with prior work, that the behavior of charged residues is the primary determinant of the effective permittivity. Furthermore, only environmental changes that alter the properties of charged residues exert a significant effect on epsilon. In contrast, buried water molecules or ligands have little or no effect on protein dielectric p...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Implicit methods for modeling protein electrostatics require dielectric properties of the system to ...
AbstractWe have used a standard Fröhlich-Kirkwood dipole moment fluctuation model to calculate the s...
AbstractWe have used a standard Fröhlich-Kirkwood dipole moment fluctuation model to calculate the s...
The static and frequency dependent dielectric properties of trypsin inhibitor and hen egg white lyso...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Protein electrical properties have been studied using dielectric relaxation measure-ments throughout...
Solvation of protein surface charges plays an important role for the protonation states of titratabl...
A simple inhomogeneous model of proteindielectric properties is discussed. A protein in solution is ...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Implicit methods for modeling protein electrostatics require dielectric properties of the system to ...
AbstractWe have used a standard Fröhlich-Kirkwood dipole moment fluctuation model to calculate the s...
AbstractWe have used a standard Fröhlich-Kirkwood dipole moment fluctuation model to calculate the s...
The static and frequency dependent dielectric properties of trypsin inhibitor and hen egg white lyso...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Protein electrical properties have been studied using dielectric relaxation measure-ments throughout...
Solvation of protein surface charges plays an important role for the protonation states of titratabl...
A simple inhomogeneous model of proteindielectric properties is discussed. A protein in solution is ...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Using a new semi-empirical method for calculating molecular polarizabilities and the Clausius−Mossot...
Implicit methods for modeling protein electrostatics require dielectric properties of the system to ...