In this article we present methodology for simulating protein dynamics while imposing restraints derived from NMR measurements on partially ordered molecules. Such measurements may include residual dipolar couplings and chemical-shift anisotropies. We define a restraint potential for use in molecular dynamics and energy minimization. The presented potential is consistent with the simultaneously optimized molecular order tensor. Restraining can be performed with time and ensemble averaging. We performed a large number of molecular dynamics simulations of the histidine containing phosphocarrier protein with restraints on backbone N-H vector orientations derived from residual dipolar couplings. From these simulations it is evident that the use...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
We describe a new penalty function for use in restrained molecular dynamics simulations which allows...
Proteins are dynamic systems whose internal motions and resulting conformational changes are essenti...
In this article we present methodology for simulating protein dynamics while imposing restraints der...
A method is described that allows experimental $$S^2$$ S 2 order parameters to be enforced as a time...
Introducing experimental values as restraints into molecular dynamics (MD) simulations to bias the v...
The use of time-dependent restraints in molecular simulation in order to generate a conformational e...
SummaryWe introduce a procedure to determine the structures of proteins by incorporating NMR chemica...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
International audienceNuclear magnetic resonance (NMR) spectroscopy provides detailed understanding ...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
The dynamics of proteins plays a central role in their activity, including enzymatic catalysis and a...
An atomic resolution description of protein flexibility is essential for understanding the role that...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
We report on progress toward improving NMR relaxation analysis in proteins in terms of the slowly re...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
We describe a new penalty function for use in restrained molecular dynamics simulations which allows...
Proteins are dynamic systems whose internal motions and resulting conformational changes are essenti...
In this article we present methodology for simulating protein dynamics while imposing restraints der...
A method is described that allows experimental $$S^2$$ S 2 order parameters to be enforced as a time...
Introducing experimental values as restraints into molecular dynamics (MD) simulations to bias the v...
The use of time-dependent restraints in molecular simulation in order to generate a conformational e...
SummaryWe introduce a procedure to determine the structures of proteins by incorporating NMR chemica...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
International audienceNuclear magnetic resonance (NMR) spectroscopy provides detailed understanding ...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
The dynamics of proteins plays a central role in their activity, including enzymatic catalysis and a...
An atomic resolution description of protein flexibility is essential for understanding the role that...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
We report on progress toward improving NMR relaxation analysis in proteins in terms of the slowly re...
In order to characterise the dynamics of proteins, a well-established method is to incorporate exper...
We describe a new penalty function for use in restrained molecular dynamics simulations which allows...
Proteins are dynamic systems whose internal motions and resulting conformational changes are essenti...