Accurate force fields are crucial for molecular dynamics investigation of complex biological systems. Building accurate protein force fields from quantum mechanical (QM) calculations is challenging due to the complexity of proteins and high computational costs of QM methods. In order to overcome these two difficulties, here we developed the residue-based systematic molecular fragmentation method to partition general proteins into only 20 types of amino acid dipeptides and one type of peptide bond at level 1. The total energy of proteins is the combination of the energies of these fragments. Each type of the fragments is then parametrized using neural network (NN) representation of the QM reference. Adopting NN representation can circumvent ...
ABSTRACT The minimal requirements of a physics-based potential that can refine protein structures ar...
We compare the conformational distributions of Ace-Ala-Nme and Ace-Gly-Nme sampled in long simulatio...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...
Molecular mechanics force fields are used to understand and predict a wide range of biological pheno...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Chuan Tian presented his work on Amber ff19SB force field at the Chodera lab at MSKCC on Sep 12, 201...
Protein folding is the one of the most important topics of research in Biochemistry. The und...
Computational approaches to modeling protein structures have made significant advances over the past...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...
Molecular mechanics force fields, which are commonly used in biomolecular modeling and computer-aide...
Recent hardware and software advances have enabled simulation studies of protein systems on biophysi...
<p>The optimisation of a peptide-capped glycine using the novel force field FFLUX is presented. FFLU...
ABSTRACT The minimal requirements of a physics-based potential that can refine protein structures ar...
We compare the conformational distributions of Ace-Ala-Nme and Ace-Gly-Nme sampled in long simulatio...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...
Molecular mechanics force fields are used to understand and predict a wide range of biological pheno...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Molecular mechanics force field parameters for macromolecules, such as proteins, are traditionally f...
Chuan Tian presented his work on Amber ff19SB force field at the Chodera lab at MSKCC on Sep 12, 201...
Protein folding is the one of the most important topics of research in Biochemistry. The und...
Computational approaches to modeling protein structures have made significant advances over the past...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...
Molecular mechanics force fields, which are commonly used in biomolecular modeling and computer-aide...
Recent hardware and software advances have enabled simulation studies of protein systems on biophysi...
<p>The optimisation of a peptide-capped glycine using the novel force field FFLUX is presented. FFLU...
ABSTRACT The minimal requirements of a physics-based potential that can refine protein structures ar...
We compare the conformational distributions of Ace-Ala-Nme and Ace-Gly-Nme sampled in long simulatio...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...