The motions of biological macromolecules are tightly coupled to their functions. However, while the study of fast motions has become increasingly feasible in recent years, the study of slower, biologically important motions remains difficult. Here, we present a method to construct native state ensembles of proteins by the combination of physical force fields and experimental data through modern statistical methodology. As an example, we use NMR residual dipolar couplings to determine a native state ensemble of the extensively studied third immunoglobulin binding domain of protein G (GB3). The ensemble accurately describes both local and nonlocal backbone fluctuations as judged by its reproduction of complementary experimental data. While it...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
Many instances of protein dynamics of relevance for biological function are now recognized in the li...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
ABSTRACT Describing and understanding the biological function of a protein requires a detailed struc...
AbstractDescribing and understanding the biological function of a protein requires a detailed struct...
International audienceNuclear magnetic resonance (NMR) spectroscopy provides detailed understanding ...
Conformational ensembles are increasingly recognized as a useful representation to describe fundamen...
Conformational ensembles are increasingly recognized as a useful representation to describe fundamen...
Recent advances in Nuclear Magnetic Resonance (NMR) spectroscopy present new opportunities for inves...
An atomic resolution description of protein flexibility is essential for understanding the role that...
Many proteins display complex dynamical properties that are often intimately linked to their biologi...
Intrinsically disordered proteins (IDPs) are highly dynamic systems that play an important role in c...
AbstractPerhaps one of the most prominent realizations of recent years is the critical role that pro...
Perhaps one of the most prominent realizations of recent years is the critical role that protein dyn...
International audienceIntrinsically disordered proteins (IDPs) are flexible biomolecules whose essen...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
Many instances of protein dynamics of relevance for biological function are now recognized in the li...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
ABSTRACT Describing and understanding the biological function of a protein requires a detailed struc...
AbstractDescribing and understanding the biological function of a protein requires a detailed struct...
International audienceNuclear magnetic resonance (NMR) spectroscopy provides detailed understanding ...
Conformational ensembles are increasingly recognized as a useful representation to describe fundamen...
Conformational ensembles are increasingly recognized as a useful representation to describe fundamen...
Recent advances in Nuclear Magnetic Resonance (NMR) spectroscopy present new opportunities for inves...
An atomic resolution description of protein flexibility is essential for understanding the role that...
Many proteins display complex dynamical properties that are often intimately linked to their biologi...
Intrinsically disordered proteins (IDPs) are highly dynamic systems that play an important role in c...
AbstractPerhaps one of the most prominent realizations of recent years is the critical role that pro...
Perhaps one of the most prominent realizations of recent years is the critical role that protein dyn...
International audienceIntrinsically disordered proteins (IDPs) are flexible biomolecules whose essen...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...
Many instances of protein dynamics of relevance for biological function are now recognized in the li...
In order to carry out their functions, proteins often undergo significant conformational fluctuation...