We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperature quantum mechanics/molecular mechanics (QM/MM) molecular dynamics simulations, with the fragment or moiety that has to be parametrized being included in the QM region. By applying a force-matching algorithm, we derive a force field designed in order to reproduce the steric, electrostatic, and dynamic properties of the QM subsystem. The force field determined in this manner has an accuracy that is comparable to the one of the reference QM/MM calculation, but at a greatly reduced computational cost. This allows calculating quantities that would be prohibitive within a QM/MM approach, such as thermodynamic averages involving slow motions of a ...
ABSTRACT: We parametrize a linear-scaling quantum mechanical force field called mDC for the accurate...
We parametrize a linear-scaling quantum mechanical force field called mDC for the accurate reproduct...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...
Molecular mechanics force fields are used to understand and predict a wide range of biological pheno...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Classical molecular dynamics (MD) simulations based on atomistic models are increasingly used to stu...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Accurate force fields are crucial for molecular dynamics investigation of complex biological systems...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
We compare the conformational distributions of Ace-Ala-Nme and Ace-Gly-Nme sampled in long simulatio...
Modern molecular mechanics force fields are widely used for modelling the dynamics and interactions ...
Molecular mechanics force fields, which are commonly used in biomolecular modeling and computer-aide...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
ABSTRACT: We parametrize a linear-scaling quantum mechanical force field called mDC for the accurate...
We parametrize a linear-scaling quantum mechanical force field called mDC for the accurate reproduct...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...
Molecular mechanics force fields are used to understand and predict a wide range of biological pheno...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Classical molecular dynamics (MD) simulations based on atomistic models are increasingly used to stu...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Accurate force fields are crucial for molecular dynamics investigation of complex biological systems...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
We compare the conformational distributions of Ace-Ala-Nme and Ace-Gly-Nme sampled in long simulatio...
Modern molecular mechanics force fields are widely used for modelling the dynamics and interactions ...
Molecular mechanics force fields, which are commonly used in biomolecular modeling and computer-aide...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
ABSTRACT: We parametrize a linear-scaling quantum mechanical force field called mDC for the accurate...
We parametrize a linear-scaling quantum mechanical force field called mDC for the accurate reproduct...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...