Nuclear magnetic resonance (NMR) has the unique advantage of elucidating the structure and dynamics of biomolecules in solution at physiological temperatures, where they are in constant movement on timescales from picoseconds to milliseconds. Such motions have been shown to be critical for enzyme catalysis, allosteric regulation, and molecular recognition. With NMR being particularly sensitive to these timescales, detailed information about the kinetics can be acquired. However, nearly all methods of NMR-based biomolecular structure determination neglect kinetics, which introduces a large approximation to the underlying physics, limiting both structural resolution and the ability to accurately determine molecular flexibility. Here we present the Kinetic Ensemble approach that uses a hierarchy of interconversion rates between a set of ensemble members to rigorously calculate Nuclear Overhauser Effect (NOE) intensities. It can be used to simultaneously refine both temporal and structural coordinates. By generalizing ideas from the extended model free approach, the method can analyze the amplitudes and kinetics of motions anywhere along the backbone or side chains. Furthermore, analysis of a large set of crystal structures suggests that NOE data contains a surprising amount of high-resolution information that is better modeled using our approach. The Kinetic Ensemble approach provides the means to unify numerous types of experiments under a single quantitative framework and more fully characterize and exploit kinetically distinct protein states. While we apply the approach here to the protein ubiquitin and cross validate it with previously derived datasets, the approach can be applied to any protein for which NOE data is available.
Transport-RelevantProtein Conformational Dynamics and Water Dynamics on Multiple TimeScales in an Archetypal Proton Channel: Insights from Solid-StateNMR
Transport-RelevantProtein Conformational Dynamics and Water Dynamics on Multiple TimeScales in an Archetypal Proton Channel: Insights from Solid-StateNMR
Venkata S. Mandala, Martin D. Gelenter and Mei Hong
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/jacs.7b12464/20180122/images/medium/ja-2017-12464m_0008.gif
Journal of the American Chemical Society
DOI: 10.1021/jacs.7b12464
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[NMR paper] Transport-Relevant Protein Conformational Dynamics and Water Dynamics on Multiple Timescales in an Archetypal Proton Channel - Insights from Solid-State NMR.
Transport-Relevant Protein Conformational Dynamics and Water Dynamics on Multiple Timescales in an Archetypal Proton Channel - Insights from Solid-State NMR.
Transport-Relevant Protein Conformational Dynamics and Water Dynamics on Multiple Timescales in an Archetypal Proton Channel - Insights from Solid-State NMR.
J Am Chem Soc. 2018 Jan 05;:
Authors: Mandala V, Gelenter MD, Hong M
Abstract
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Abstract
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Abstract
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Adv Protein Chem Struct Biol. 2013;92:219-51
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Abstract
Protein functional dynamics are defined as the atomic thermal fluctuations or the segmental motions that are essential for the function of the biomolecule. NMR is a very versatile technique that allows obtaining quantitative information from these processes at atomic resolution....
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08-22-2010 03:33 AM
[NMR paper] NMR-derived solution conformations of a hybrid synthetic peptide containing multiple
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