An extended accelerated molecular dynamics (AMD) methodology called adaptive AMD is presented. Adaptive AMD (Ad-AMD) is an efficient and robust conformational space sampling algorithm that is particularly-well suited to proteins with highly structured potential energy surfaces exhibiting complex, large-scale collective conformational transitions. Ad-AMD simulations of substrate-free P450cam reveal that this system exists in equilibrium between a fully and partially open conformational state. The mechanism for substrate binding depends on the size of the ligand. Larger ligands enter the P450cam binding pocket, and the resulting substrate-bound system is trapped in an open conformation via a population shift mechanism. Small ligands, which fu...
Molecular dynamics simulations can provide valuable atomistic insights into biomolecular function. H...
A biased-potential molecular dynamics simulation method, accelerated molecular dynamics (AMD), was c...
Cytochrome P450s are ubiquitous metalloenzymes involved in the metabolism and detoxification of fore...
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...
Dihedral conformational transitions are analyzed systematically in a model globular protein, cytochr...
Conformational changes that occur upon ligand binding may be too slow to observe on the time scales ...
Cytochrome P450s (CYPs) exhibit a large plasticity and flexibility in the active site allowing for t...
Accelerated molecular dynamics (aMD) is a promising sampling method to generate an ensemble of confo...
Abstract: Accelerated molecular dynamics (aMD) has been shown to enhance conformational space sampli...
In this work, we critically assess the ability of the all-atom enhanced sampling method accelerated ...
Proteins need to interconvert between many conformations in order to function, many of which are for...
Conformational changes that occur upon ligand binding may be too slow to observe on the time scales ...
Large-scale conformational changes of proteins are usually associated with the binding of ligands. B...
Accelerated Molecular Dynamics (aMD) is a promising enhanced sampling method to explore the conforma...
Molecular dynamics simulations can provide valuable atomistic insights into biomolecular function. H...
A biased-potential molecular dynamics simulation method, accelerated molecular dynamics (AMD), was c...
Cytochrome P450s are ubiquitous metalloenzymes involved in the metabolism and detoxification of fore...
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...
Dihedral conformational transitions are analyzed systematically in a model globular protein, cytochr...
Conformational changes that occur upon ligand binding may be too slow to observe on the time scales ...
Cytochrome P450s (CYPs) exhibit a large plasticity and flexibility in the active site allowing for t...
Accelerated molecular dynamics (aMD) is a promising sampling method to generate an ensemble of confo...
Abstract: Accelerated molecular dynamics (aMD) has been shown to enhance conformational space sampli...
In this work, we critically assess the ability of the all-atom enhanced sampling method accelerated ...
Proteins need to interconvert between many conformations in order to function, many of which are for...
Conformational changes that occur upon ligand binding may be too slow to observe on the time scales ...
Large-scale conformational changes of proteins are usually associated with the binding of ligands. B...
Accelerated Molecular Dynamics (aMD) is a promising enhanced sampling method to explore the conforma...
Molecular dynamics simulations can provide valuable atomistic insights into biomolecular function. H...
A biased-potential molecular dynamics simulation method, accelerated molecular dynamics (AMD), was c...
Cytochrome P450s are ubiquitous metalloenzymes involved in the metabolism and detoxification of fore...