Recent Developments in (15)N NMR Relaxation Studies that Probe Protein Backbone Dynamics.
Top Curr Chem. 2011 Sep 7;
Authors: Ishima R
Abstract
Nuclear Magnetic Resonance (NMR) relaxation is a powerful technique that provides information about internal dynamics associated with configurational energetics in proteins, as well as site-specific information involved in conformational equilibria. In particular, (15)N relaxation is a useful probe to characterize overall and internal backbone dynamics of proteins because the relaxation mainly reflects reorientational motion of the N-H bond vector. Over the past 20 years, experiments and protocols for analysis of (15)N R (1), R (2), and the heteronuclear (15)N-{(1)H} NOE data have been well established. The development of these methods has kept pace with the increase in the available static-magnetic field strength, providing dynamic parameters optimized from data fitting at multiple field strengths. Using these methodological advances, correlation times for global tumbling and order parameters and correlation times for internal motions of many proteins have been determined. More recently, transverse relaxation dispersion experiments have extended the range of NMR relaxation studies to the milli- to microsecond time scale, and have provided quantitative information about functional conformational exchange in proteins. Here, we present an overview of recent advances in (15)N relaxation experiments to characterize protein backbone dynamics.
PMID: 21898206 [PubMed - as supplied by publisher]
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Recent Developments in (15)N NMR Relaxation Studies that Probe Protein Backbone Dynamics.
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