Molecular dynamics simulations are helpful tools for a range of applications, ranging from drug discovery to protein structure determination. The successful use of this technology largely depends on the potential function, or force field, used to determine the potential energy at each configuration of the system. Most force fields encode all of the relevant parameters to be used in distinct atom types, each associated with parameters for all parts of the force field, typically bond stretches, angle bends, torsions, and nonbonded terms accounting for van der Waals and electrostatic interactions. Much attention has been paid to the nonbonded parameters and their derivation, which are important in particular due to their governance of noncoval...
Input files for the Yank software to reproduce the binding free energy calculations with D-MBIS atom...
In order to increase the accuracy of classical computer simulations, existing methodologies may need...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Meaningful efforts in computer-aided drug design (CADD) require accurate molecular mechanical force ...
Atomic partial charges appear in the Coulomb term of many force-field models and can be derived from...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Molecular mechanics force fields, which are commonly used in biomolecular modeling and computer-aide...
Binding affinity prediction by means of computer simulation has been increasingly incorporated in dr...
A general method for parametrizing atomic interaction functions is presented. The method is based on...
Force fields used in molecular simulations contain numerical parameters, such as Lennard-Jones (LJ) ...
Molecular dynamics simulations have revolutionized chemistry by allowing cheap and fast in silico an...
ABSTRACT: We present the ff14ipq force field, implementing the previously published IPolQ charge set...
Classical molecular dynamics (MD) simulations based on atomistic models are increasingly used to stu...
We present the ff14ipq force field, implementing the previously published IPolQ charge set for simul...
Input files for the Yank software to reproduce the binding free energy calculations with D-MBIS atom...
In order to increase the accuracy of classical computer simulations, existing methodologies may need...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Meaningful efforts in computer-aided drug design (CADD) require accurate molecular mechanical force ...
Atomic partial charges appear in the Coulomb term of many force-field models and can be derived from...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Molecular mechanics force fields, which are commonly used in biomolecular modeling and computer-aide...
Binding affinity prediction by means of computer simulation has been increasingly incorporated in dr...
A general method for parametrizing atomic interaction functions is presented. The method is based on...
Force fields used in molecular simulations contain numerical parameters, such as Lennard-Jones (LJ) ...
Molecular dynamics simulations have revolutionized chemistry by allowing cheap and fast in silico an...
ABSTRACT: We present the ff14ipq force field, implementing the previously published IPolQ charge set...
Classical molecular dynamics (MD) simulations based on atomistic models are increasingly used to stu...
We present the ff14ipq force field, implementing the previously published IPolQ charge set for simul...
Input files for the Yank software to reproduce the binding free energy calculations with D-MBIS atom...
In order to increase the accuracy of classical computer simulations, existing methodologies may need...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...