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© 2017 Elsevier Ltd All rights reserved. Nuclear magnetic resonance (NMR) spectroscopy is a powerful method for the study of the structure, dynamics, activity, and folding of proteins in solution. Peptides and small proteins (<10kDa) can be studied in detail using 1H NMR and two-dimensional methods including COSY (correlation spectroscopy) and TOCSY (total correlation spectroscopy), which provide 'through-bond' correlations, and NOESY (nuclear Overhauser effect spectroscopy), which provides 'through-space' information. For larger proteins (10-30kDa), isotope labeling with 15N and 13C is generally required. Resonance assignments are obtained using three-dimensional 15N-edited TOCSY- and NOESY-HSQC or 1H-13C-15N triple-resonance experiments. For proteins larger than ?30kDa, high levels of deuteration, in addition to 15N/13C labeling, and the application of TROSY (transverse relaxation-optimized spectroscopy)-based triple-resonance experiments are required. Once the spectrum has been assigned, structural information is obtained from NOEs, scalar coupling constants, chemical shifts, residual dipolar couplings, and amide exchange data. The restraints derived from these NMR parameters are used as inputs to distance geometry, simulated annealing, and molecular dynamics calculations to derive a three-dimensional structure of the protein molecule in solution. NMR relaxation methods can also be used to describe the dynamics of the polypeptide chain at the level of individual residues.

Original publication





Book title

Encyclopedia of Spectroscopy and Spectrometry

Publication Date



759 - 765