A penalty function is introduced into molecular dynamics simulations that improves on current methods for enforcing nuclear magnetic resonance-based distance restraints. Rather than treating nuclear Overhauser effects as static distance bounds, they are considered as quantities that must be satisfied on average over the course of a simulation trajectory. The efficacy of the method is demonstrated on the previously determined structure of tendamistat. The molecular dynamics simulations show that the time-averaged constraints increase the mobility allowed to molecules, produce better agreement with distance bounds, improve searching properties and give a better estimate of the conformational space occupied by the molecule in solutio
We address the question how well proteins can be modelled on the basis of NMR data, when these data ...
Among structural biology techniques, Nuclear Magnetic Resonance (NMR) provides a holistic view of st...
The use of molecular dynamics for simulated annealing optimization of structures calculated from NMR...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
A method for enforcing nuclear Overhauser effect (NOE) distance restraints in molecular dynamics sim...
ABSTRACT: The relative contributions of the interproton distance restraints derived from nuclear Ove...
Introducing experimental values as restraints into molecular dynamics (MD) simulations to bias the v...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
The method of one-step perturbation can be used to predict from a single molecular dynamics simulati...
In this article we present methodology for simulating protein dynamics while imposing restraints der...
We discuss the use of molecular dynamics simulations as a tool for the refinement of structures base...
Errors and imprecisions in distance restraints derived from NOESY peak volumes are usually accounted...
We address the question how well proteins can be modelled on the basis of NMR data, when these data ...
Among structural biology techniques, Nuclear Magnetic Resonance (NMR) provides a holistic view of st...
The use of molecular dynamics for simulated annealing optimization of structures calculated from NMR...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
A method for enforcing nuclear Overhauser effect (NOE) distance restraints in molecular dynamics sim...
ABSTRACT: The relative contributions of the interproton distance restraints derived from nuclear Ove...
Introducing experimental values as restraints into molecular dynamics (MD) simulations to bias the v...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
The method of one-step perturbation can be used to predict from a single molecular dynamics simulati...
In this article we present methodology for simulating protein dynamics while imposing restraints der...
We discuss the use of molecular dynamics simulations as a tool for the refinement of structures base...
Errors and imprecisions in distance restraints derived from NOESY peak volumes are usually accounted...
We address the question how well proteins can be modelled on the basis of NMR data, when these data ...
Among structural biology techniques, Nuclear Magnetic Resonance (NMR) provides a holistic view of st...
The use of molecular dynamics for simulated annealing optimization of structures calculated from NMR...