Publication date: Available online 1 November 2014 Source:Progress in Nuclear Magnetic Resonance Spectroscopy
Author(s): Isabella C. Felli , Roberta Pierattelli
Spin-state-selective methods to achieve homonuclear decoupling in the direct acquisition dimension of 13C detected NMR experiments have been one of the key contributors to converting 13C detected NMR experiments into really useful tools for studying biomolecules. We discuss here in detail the various methods that have been proposed, summarize the large array of new experiments that have been developed and present applications to different kinds of proteins in different aggregation states.
[NMR paper] Biomolecular magic-angle spinning solid-state NMR: recent methods and applications.
Biomolecular magic-angle spinning solid-state NMR: recent methods and applications.
Related Articles Biomolecular magic-angle spinning solid-state NMR: recent methods and applications.
Curr Opin Biotechnol. 2013 Mar 4;
Authors: Goldbourt A
Abstract
The link of structure and dynamics of biomolecules and their complexes to their function and to many cellular processes has driven the quest for their detailed characterization by a variety of biophysical techniques. Magic-angle spinning solid-state nuclear magnetic resonance spectroscopy...
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03-14-2013 10:05 PM
High resolution methyl selective 13C-NMR of proteins in solution and solid state
High resolution methyl selective 13C-NMR of proteins in solution and solid state
Abstract New 13C-detected NMR experiments have been devised for molecules in solution and solid state, which provide chemical shift correlations of methyl groups with high resolution, selectivity and sensitivity. The experiments achieve selective methyl detection by exploiting the one bond J-coupling between the 13C-methyl nucleus and its directly attached 13C spin in a molecule. In proteins such correlations edit the 13C-resonances of different methyl containing residues into distinct spectral regions...
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07-13-2012 10:46 PM
[NMR paper] Spin-state-selective TPPI: a new method for suppression of heteronuclear coupling con
Spin-state-selective TPPI: a new method for suppression of heteronuclear coupling constants in multidimensional NMR experiments.
Related Articles Spin-state-selective TPPI: a new method for suppression of heteronuclear coupling constants in multidimensional NMR experiments.
J Magn Reson. 1999 Aug;139(2):443-6
Authors: Schulte-Herbrüggen T, Briand J, Meissner A, Sřrensen OW
A novel multidimensional NMR pulse sequence tool, spin-state-selective time-proportional phase incrementation (S(3) TPPI), is introduced. It amounts to application of...
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11-18-2010 08:31 PM
[NMR900 blog] Multidimensional NMR Methods for the Solution State
Multidimensional NMR Methods for the Solution State
edited by Gareth A. Morris and James W. Emsley
Hardcover: 580 pages
Publisher: Wiley; June 2010
Language: English
ISBN: 978-0470770757
http://www.amazon.com/dp/0470770759
http://www.amazon.ca/dp/0470770759
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08-22-2010 02:30 AM
[NMR900 blog] Multidimensional NMR Methods for the Solution State
Multidimensional NMR Methods for the Solution State
edited by Gareth A. Morris and James W. Emsley
Hardcover: 580 pages
Publisher: Wiley; June 2010
Language: English
ISBN: 978-0470770757
http://www.amazon.com/dp/0470770759
http://www.amazon.ca/dp/0470770759