We present some applications of solid-state nuclear magnetic resonance to model compounds and biological systems. We highlight a class of pulse sequences that are designed based on symmetry properties of the internal spin interactions. Examples are given showing resonance assignments, determination of internuclear distances, and torsion angle determinations in representative model systems as well as true biological systems

Carravetta, Marina

Levitt, Malcolm H.

Madhu, P.K.

Zhao, Xin

English

Southampton (e-Prints Soton)

Symmetry-based pulse sequences in solid-state NMR and applications to biological systems

We present some applications of solid–state nuclear magnetic resonance to model compounds and biological systems. We highlight a class of pulse sequences that are designed based on symmetry properties of the internal spin interactions. Examples are given showing resonance assignments, de-termination of internuclear distances, and torsion angle determinations in representative model systems as well as true biological systems. 

Xin Zhao

Marina Carravetta

P. K. Madhu

Malcolm H. Levitt

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Symmetry-Based Pulse Sequences in Solid–State NMR and Applications to Biological Systems

http://eprints.soton.ac.uk/27763/1/XZ_RRDiB_preprint.pdf

Symmetry-based pulse sequences in solid-state NMR and applications to biological systems

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Southampton (e-Prints Soton)

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