Author(s): Susanne Penzel, Albert A. Smith, Matthias Ernst, Beat H. Meier
Abstract
Fast magic-angle spinning, coupled with 1H detection is a powerful method to improve spectral resolution and signal to noise in solid-state NMR spectra. Commercial probes now provide spinning frequencies in excess of 100 kHz. Then, one has sufficient resolution in the 1H dimension to directly detect protons, which have a gyromagnetic ratio approximately four times larger than 13C spins. However, the gains in sensitivity can quickly be lost if the rotation angle is not set precisely. The most common method of magic-angle calibration is to optimize the number of rotary echoes, or sideband intensity, observed on a sample of KBr. However, this typically uses relatively low spinning frequencies, where the spinning of fast-MAS probes is often unstable, and detection on the 13C channel, for which fast-MAS probes are typically not optimized. Therefore, we compare the KBr-based optimization of the magic angle with two alternative approaches: optimization of the splitting observed in 13C-labeled glycine-ethylester on the carbonyl due to the C?–C? J-coupling, or optimization of the H–N J-coupling spin echo in the protein sample itself. The latter method has the particular advantage that no separate sample is necessary for the magic-angle optimization.
[NMR paper] Setting the magic angle for fast magic-angle spinning probes
Setting the magic angle for fast magic-angle spinning probes
Publication date: Available online 15 June 2018
Source:Journal of Magnetic Resonance</br>
Author(s): Susanne Penzel, Albert A. Smith, Matthias Ernst, Beat H. Meier</br>
Fast magic-angle spinning, coupled with 1H detection is a powerful method to improve spectral resolution and signal to noise in solid-state NMR spectra. Commercial probes now provide spinning frequencies in excess of 100 kHz. Then, one has sufficient resolution in the 1H dimension to directly detect protons, which have a gyromagnetic...
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Rapid measurement of long-range distances in proteins by multidimensional 13 Câ?? 19 F REDOR NMR under fast magic-angle spinning
Rapid measurement of long-range distances in proteins by multidimensional 13 Câ?? 19 F REDOR NMR under fast magic-angle spinning
Abstract
The ability to simultaneously measure many long-range distances is critical to efficient and accurate determination of protein structures by solid-state NMR (SSNMR). So far, the most common distance constraints for proteins are 13Câ??15N distances, which are usually measured using the rotational-echo double-resonance (REDOR) technique. However, these measurements are restricted to distances of up to ~â??5Â*Ã? due to...
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05-21-2018 06:16 PM
[NMR paper] Fast Magic-Angle-Spinning 19F Spin Exchange NMR for Determining Nanometer 19F-19F Distances in Proteins and Pharmaceutical Compounds.
Fast Magic-Angle-Spinning 19F Spin Exchange NMR for Determining Nanometer 19F-19F Distances in Proteins and Pharmaceutical Compounds.
Fast Magic-Angle-Spinning 19F Spin Exchange NMR for Determining Nanometer 19F-19F Distances in Proteins and Pharmaceutical Compounds.
J Phys Chem B. 2018 Feb 27;:
Authors: Roos M, Wang T, Shcherbakov AA, Hong M
Abstract
Internuclear distances measured using NMR provide crucial constraints of three-dimensional structures, but are often restricted to about 5 Å due to the weakness of nuclear-spin...
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02-28-2018 03:32 PM
[NMR paper] Parameter independent low-power heteronuclear decoupling for fast magic-angle spinning solid-state NMR.
Parameter independent low-power heteronuclear decoupling for fast magic-angle spinning solid-state NMR.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--link.aip.org-jhtml-linkto.gif Related Articles Parameter independent low-power heteronuclear decoupling for fast magic-angle spinning solid-state NMR.
J Chem Phys. 2017 Feb 28;146(8):084202
Authors: Equbal A, Madhu PK, Meier BH, Nielsen NC, Ernst M, Agarwal V
Abstract
Major advances have recently been made in the field of heteronuclear dipolar decoupling in...
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03-03-2017 10:56 PM
[NMR paper] Ultra fast magic angle spinning solid - state NMR spectroscopy of intact bone.
Ultra fast magic angle spinning solid - state NMR spectroscopy of intact bone.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--media.wiley.com-assets-7315-19-Wiley_FullText_120x30_orange.png Related Articles Ultra fast magic angle spinning solid - state NMR spectroscopy of intact bone.
Magn Reson Chem. 2016 Feb;54(2):132-5
Authors: Singh C, Rai RK, Kayastha AM, Sinha N
Abstract
Ultra fast magic angle spinning (MAS) has been a potent method to significantly average out homogeneous/inhomogeneous line...
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01-28-2017 08:29 PM
Rapid Proton-DetectedNMR Assignment for Proteinswith Fast Magic Angle Spinning
Rapid Proton-DetectedNMR Assignment for Proteinswith Fast Magic Angle Spinning
Emeline Barbet-Massin, Andrew J. Pell, Joren S. Retel, Loren B. Andreas, Kristaps Jaudzems, W. Trent Franks, Andrew J. Nieuwkoop, Matthias Hiller, Victoria Higman, Paul Guerry, Andrea Bertarello, Michael J. Knight, Michele Felletti, Tanguy Le Marchand, Svetlana Kotelovica, Inara Akopjana, Kaspars Tars, Monica Stoppini, Vittorio Bellotti, Martino Bolognesi, Stefano Ricagno, James J. Chou, Robert G. Griffin, Hartmut Oschkinat, Anne Lesage, Lyndon Emsley, Torsten Herrmann and Guido Pintacuda
...
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08-18-2014 10:14 PM
[NMR paper] Rapid proton-detected NMR assignment for proteins with fast magic angle spinning.
Rapid proton-detected NMR assignment for proteins with fast magic angle spinning.
Rapid proton-detected NMR assignment for proteins with fast magic angle spinning.
J Am Chem Soc. 2014 Aug 7;
Authors: Barbet-Massin E, Pell AJ, Retel J, Andreas LB, Jaudzems K, Franks WT, Nieuwkoop AJ, Hiller M, Higman VA, Guerry P, Bertarello A, Knight MJ, Felletti M, Le Marchand T, Kotelovica S, Akopjana I, Tars K, Stoppini M, Bellotti V, Bolognesi M, Ricagno S, Chou JJ, Griffin RG, Oschkinat H, Lesage A, Emsley L, Herrmann T, Pintacuda G
Abstract
...
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08-08-2014 01:45 PM
[NMR paper] Probing membrane protein orientation and structure using fast magic-angle-spinning so
Probing membrane protein orientation and structure using fast magic-angle-spinning solid-state NMR.
Related Articles Probing membrane protein orientation and structure using fast magic-angle-spinning solid-state NMR.
J Biomol NMR. 2004 Nov;30(3):253-65
Authors: Andronesi OC, Pfeifer JR, Al-Momani L, Ozdirekcan S, Rijkers DT, Angerstein B, Luca S, Koert U, Killian JA, Baldus M
One and two-dimensional solid-state NMR experiments are discussed that permit probing local structure and overall molecular conformation of membrane-embedded polypeptides...