The CHARMM force field is one of the most widely used atomistic force fields in biomolecular simulation. Currently, the force field covers proteins, nucleic acids, lipids, carbohydrates, ions, small molecules, and a wide range of modified (noncanonical) residues within each of these categories. Augmenting the core CHARMM force field is the CHARMM General Force Field (CGenFF), which can be applied to nonstandard species, most often ligands and drug-like molecules. In this webinar, the functional form and parametrization strategy of the CHARMM force field will be presented along with key features that can be exploited for simulations of complex systems. Other topics include the implementation of the force field in the GROMACS simulation softw...
The most important requirement of biomolecular modeling is to deal with electrostatic energies. The ...
Abstract: Several molecular dynamics simulations were performed on three proteins—bovine apo-calbind...
The all-atom additive CHARMM36 protein force field is widely used in molecular modeling and simulati...
Validation dataset for the paper "charmm2gmx: An Automated Method to Port the CHARMM Additive Force ...
ABSTRACT: The similarity of the AMBER force field’s energy functional form with that of the CHARMM f...
Molecular dynamics simulations is a widely used computational tool to describe the collective motion...
Molecular dynamics (MD) simulation is a computational chemistry technique used to observe how a mole...
The Open Force Field Initiative (openforcefield.org) is developing a machinery to automatically para...
General AMBER force field (GAFF) parameters are provided for 160 organic molecules including drugs, ...
Molecular mechanics force fields are widely used in computer-aided drug design for the study of drug...
Molecular mechanics force fields are widely used in computer-aided drug design for the study of drug...
CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...
CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...
We provide general AMBER force field (GAFF) parameters for 160 organic molecules including drugs, na...
Proper treatment of nonbonded interactions is essential for the accuracy of molecular dynamics (MD) ...
The most important requirement of biomolecular modeling is to deal with electrostatic energies. The ...
Abstract: Several molecular dynamics simulations were performed on three proteins—bovine apo-calbind...
The all-atom additive CHARMM36 protein force field is widely used in molecular modeling and simulati...
Validation dataset for the paper "charmm2gmx: An Automated Method to Port the CHARMM Additive Force ...
ABSTRACT: The similarity of the AMBER force field’s energy functional form with that of the CHARMM f...
Molecular dynamics simulations is a widely used computational tool to describe the collective motion...
Molecular dynamics (MD) simulation is a computational chemistry technique used to observe how a mole...
The Open Force Field Initiative (openforcefield.org) is developing a machinery to automatically para...
General AMBER force field (GAFF) parameters are provided for 160 organic molecules including drugs, ...
Molecular mechanics force fields are widely used in computer-aided drug design for the study of drug...
Molecular mechanics force fields are widely used in computer-aided drug design for the study of drug...
CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...
CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...
We provide general AMBER force field (GAFF) parameters for 160 organic molecules including drugs, na...
Proper treatment of nonbonded interactions is essential for the accuracy of molecular dynamics (MD) ...
The most important requirement of biomolecular modeling is to deal with electrostatic energies. The ...
Abstract: Several molecular dynamics simulations were performed on three proteins—bovine apo-calbind...
The all-atom additive CHARMM36 protein force field is widely used in molecular modeling and simulati...