NMR measurement of biomolecular translational and rotational motion for evaluating changes of protein oligomeric state in solution
Journal Title
European Biophysics Journal
Publication Type
epub ahead of print
Abstract
Defining protein oligomeric state and/or its changes in solution is of significant interest for many biophysical studies carried out in vitro, especially when the nature of the oligomeric state is crucial in the subsequent interpretation of experimental results and their biological relevance. Nuclear magnetic resonance (NMR) is a well-established methodology for the characterization of protein structure, dynamics, and interactions at the atomic level. As a spectroscopic method, NMR also provides a compelling means for probing both molecular translational and rotational motion, two predominant measures of effective molecular size in solution, under identical conditions as employed for structural, dynamic and interaction studies. Protein translational diffusion is readily measurable by pulse gradient spin echo (PGSE) NMR, whereas its rotational correlation time, or rotational diffusion tensor when its 3D structure is known, can also be quantified from NMR relaxation parameters, such as (15)N relaxation parameters of backbone amides which are frequently employed for probing residue-specific protein backbone dynamics. In this article, we present an introductory overview to the NMR measurement of bimolecular translational and rotational motion for assessing changes of protein oligomeric state in aqueous solution, via translational diffusion coefficients measured by PGSE NMR and rotational correlation times derived from composite (15)N relaxation parameters of backbone amides, without need for the protein structure being available.
Publisher
Springer
Keywords
Nmr; NMR relaxation; Pgse nmr; Protein oligomeric state; Rotational reorientation; Translational diffusion
Research Division(s)
Structural Biology
PubMed ID
35380220
Open Access at Publisher's Site
https://doi.org/10.1007/s00249-022-01598-w
Terms of Use/Rights Notice
Refer to copyright notice on published article.


Creation Date: 2022-04-08 10:53:31
Last Modified: 2022-04-08 11:21:17
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