Currently, the best existing molecular dynamics (MD) force fields cannot accurately reproduce the global free‐energy minimum which realizes the experimental protein structure. As a result, long MD trajectories tend to drift away from the starting coordinates (e.g., crystallographic structures). To address this problem, we have devised a new simulation strategy aimed at protein crystals. An MD simulation of protein crystal is essentially an ensemble simulation involving multiple protein molecules in a crystal unit cell (or a block of unit cells). To ensure that average protein coordinates remain correct during the simulation, we introduced crystallography‐based restraints into the MD protocol. Because these restraints are aimed at the ensemb...
International audience1H-15N NMR spin relaxation and relaxation dispersion experiments can reveal th...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Single-structure models derived from X-ray data do not adequately account for the inherent, function...
SummaryX-ray crystallography typically uses a single set of coordinates and B factors to describe ma...
Proteins perform their functions in solution but their structures are most frequently studied inside...
Crystal structures of proteins are under the influence from the crystal environment. In this study, ...
Protein dynamics on the atomic level and on the microsecond timescale has recently become accessible...
International audienceThe large majority of three-dimensional structures of biological macromolecule...
Many proteins display complex dynamical properties that are often intimately linked to their biologi...
It is investigated whether molecular-dynamics (MD) simulations can be used to enhance macromolecular...
The quality of molecular dynamics (MD) simulations of proteins depends critically on the biomolecula...
Proteins are dynamic and interconvert between different conformations to perform their biological fu...
Molecular dynamics (MD) simulation is a valuable tool for characterizing the structural dynamics of ...
AbstractProtein dynamics on the atomic level and on the microsecond timescale has recently become ac...
Understanding protein function requires detailed knowledge about protein dynamics, i.e. the differen...
International audience1H-15N NMR spin relaxation and relaxation dispersion experiments can reveal th...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Single-structure models derived from X-ray data do not adequately account for the inherent, function...
SummaryX-ray crystallography typically uses a single set of coordinates and B factors to describe ma...
Proteins perform their functions in solution but their structures are most frequently studied inside...
Crystal structures of proteins are under the influence from the crystal environment. In this study, ...
Protein dynamics on the atomic level and on the microsecond timescale has recently become accessible...
International audienceThe large majority of three-dimensional structures of biological macromolecule...
Many proteins display complex dynamical properties that are often intimately linked to their biologi...
It is investigated whether molecular-dynamics (MD) simulations can be used to enhance macromolecular...
The quality of molecular dynamics (MD) simulations of proteins depends critically on the biomolecula...
Proteins are dynamic and interconvert between different conformations to perform their biological fu...
Molecular dynamics (MD) simulation is a valuable tool for characterizing the structural dynamics of ...
AbstractProtein dynamics on the atomic level and on the microsecond timescale has recently become ac...
Understanding protein function requires detailed knowledge about protein dynamics, i.e. the differen...
International audience1H-15N NMR spin relaxation and relaxation dispersion experiments can reveal th...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Single-structure models derived from X-ray data do not adequately account for the inherent, function...