In order to characterise the dynamics of proteins, a well-established method is to incorporate experimental parameters as replica-averaged structural restraints into molecular dynamics simulations. Here, we justify this approach in the case of interproton distance information provided by nuclear Overhauser effects by showing that it generates ensembles of conformations according to the maximum entropy principle. These results indicate that the use of replica-averaged structural restraints in molecular dynamics simulations, given a force field and a set of experimental data, can provide an accurate approximation of the unknown Boltzmann distribution of a system
ABSTRACT Simulated molecular dynamics tra-jectories of proteins and nucleic acids are often compared...
A new method for determining conformational entropy in proteins is reported. Proteins prevail as con...
RNA structure and dynamics play a fundamental role in many cellular processes such as gene expressio...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
Inferential methods can be used to integrate experimental informations and molecular simulations. Th...
Molecular dynamics (MD) simulations allow the investigation of the structural dynamics of biomolecul...
Estimation of configurational entropy from molecular dynamics trajectories is a difficult task which...
A method is described that allows experimental $$S^2$$ S 2 order parameters to be enforced as a time...
In this article we present methodology for simulating protein dynamics while imposing restraints der...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
Introducing experimental values as restraints into molecular dynamics (MD) simulations to bias the v...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
Molecular dynamics (MD) simulations allow the investigation of the structural dynamics of biomolecul...
Abstract: A key component of computational biology is to com-pare the results of computer mod-elling...
A method for enforcing nuclear Overhauser effect (NOE) distance restraints in molecular dynamics sim...
ABSTRACT Simulated molecular dynamics tra-jectories of proteins and nucleic acids are often compared...
A new method for determining conformational entropy in proteins is reported. Proteins prevail as con...
RNA structure and dynamics play a fundamental role in many cellular processes such as gene expressio...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
Inferential methods can be used to integrate experimental informations and molecular simulations. Th...
Molecular dynamics (MD) simulations allow the investigation of the structural dynamics of biomolecul...
Estimation of configurational entropy from molecular dynamics trajectories is a difficult task which...
A method is described that allows experimental $$S^2$$ S 2 order parameters to be enforced as a time...
In this article we present methodology for simulating protein dynamics while imposing restraints der...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
Introducing experimental values as restraints into molecular dynamics (MD) simulations to bias the v...
A penalty function is introduced into molecular dynamics simulations that improves on current method...
Molecular dynamics (MD) simulations allow the investigation of the structural dynamics of biomolecul...
Abstract: A key component of computational biology is to com-pare the results of computer mod-elling...
A method for enforcing nuclear Overhauser effect (NOE) distance restraints in molecular dynamics sim...
ABSTRACT Simulated molecular dynamics tra-jectories of proteins and nucleic acids are often compared...
A new method for determining conformational entropy in proteins is reported. Proteins prevail as con...
RNA structure and dynamics play a fundamental role in many cellular processes such as gene expressio...