Conformational changes that occur upon ligand binding may be too slow to observe on the time scales routinely accessible using molecular dynamics simulations. The adaptive integration method (AIM) leverages the notion that when a ligand is either fully coupled or decoupled, according to λ, barrier heights may change, making some conformational transitions more accessible at certain λ values. AIM adaptively changes the value of λ in a single simulation so that conformations sampled at one value of λ seed the conformational space sampled at another λ value. Adapting the value of λ throughout a simulation, however, does not resolve issues in sampling when barriers remain high regardless of the λ value. In this work, we introduce a new method, ...
Accelerated molecular dynamics (aMD) is a promising sampling method to generate an ensemble of confo...
Computational methods are used for the study of conformational change in biological molecules. Conve...
Modeling the dynamic nature of protein-ligand binding with atomistic simulations is one of the main ...
Conformational changes that occur upon ligand binding may be too slow to observe on the time scales ...
Free energy calculations are used to study how strongly potential drug molecules interact with their...
Free energy calculations are used to study how strongly potential drug molecules interact with their...
An extended accelerated molecular dynamics (AMD) methodology called adaptive AMD is presented. Adapt...
An extended accelerated molecular dynamics (AMD) methodology called adaptive AMD is presented. Adapt...
Molecular dynamics simulations can provide valuable atomistic insights into biomolecular function. H...
Molecular dynamics are increasingly used to construct conformational ensembles of biochemical system...
Abstract: Accelerated molecular dynamics (aMD) has been shown to enhance conformational space sampli...
AbstractA molecular simulation scheme, called Leap-dynamics, that provides efficient sampling of pro...
Molecular dynamics (MD) simulations that capture the spontaneous binding of drugs and other ligands ...
Molecular dynamics (MD) simulations can be a powerful tool for modeling complex dissociative process...
Accelerated Molecular Dynamics (aMD) is a promising enhanced sampling method to explore the conforma...
Accelerated molecular dynamics (aMD) is a promising sampling method to generate an ensemble of confo...
Computational methods are used for the study of conformational change in biological molecules. Conve...
Modeling the dynamic nature of protein-ligand binding with atomistic simulations is one of the main ...
Conformational changes that occur upon ligand binding may be too slow to observe on the time scales ...
Free energy calculations are used to study how strongly potential drug molecules interact with their...
Free energy calculations are used to study how strongly potential drug molecules interact with their...
An extended accelerated molecular dynamics (AMD) methodology called adaptive AMD is presented. Adapt...
An extended accelerated molecular dynamics (AMD) methodology called adaptive AMD is presented. Adapt...
Molecular dynamics simulations can provide valuable atomistic insights into biomolecular function. H...
Molecular dynamics are increasingly used to construct conformational ensembles of biochemical system...
Abstract: Accelerated molecular dynamics (aMD) has been shown to enhance conformational space sampli...
AbstractA molecular simulation scheme, called Leap-dynamics, that provides efficient sampling of pro...
Molecular dynamics (MD) simulations that capture the spontaneous binding of drugs and other ligands ...
Molecular dynamics (MD) simulations can be a powerful tool for modeling complex dissociative process...
Accelerated Molecular Dynamics (aMD) is a promising enhanced sampling method to explore the conforma...
Accelerated molecular dynamics (aMD) is a promising sampling method to generate an ensemble of confo...
Computational methods are used for the study of conformational change in biological molecules. Conve...
Modeling the dynamic nature of protein-ligand binding with atomistic simulations is one of the main ...