Continuous wave irradiation has limited bandwidth for heteronuclear 1H decoupling at high fields and for 13C decoupling in 1H/13C/15N triple-resonance experiments. SPINAL-16 modulation is shown to improve the efficiency of 1H and 13C heteronuclear decoupling on single crystals of peptides and on magnetically aligned samples of membrane proteins in bicelles, which is of particular importance because aqueous samples of biomolecules are lossy at high fields, which limits the strengths of the RF fields that can be applied.
%0 Journal Article
%1 sinha_spinal_2005
%A Sinha, Neeraj
%A Grant, Christopher V
%A Wu, Chin H
%A De Angelis, Anna A
%A Howell, Stanley C
%A Opella, Stanley J
%D 2005
%J J. Magn. Reson.
%K Bacteriophages,Biomolecular,Carbon Bonding,Nitrogen Isotopes,Glycine,Hydrogen Isotopes,Nuclear Magnetic Resonance,Peptides
%N 2
%P 197--202
%R 10.1016/j.jmr.2005.07.008
%T \SPINAL\ modulated decoupling in high field double- and triple-resonance solid-state \NMR\ experiments on stationary samples
%V 177
%X Continuous wave irradiation has limited bandwidth for heteronuclear 1H decoupling at high fields and for 13C decoupling in 1H/13C/15N triple-resonance experiments. SPINAL-16 modulation is shown to improve the efficiency of 1H and 13C heteronuclear decoupling on single crystals of peptides and on magnetically aligned samples of membrane proteins in bicelles, which is of particular importance because aqueous samples of biomolecules are lossy at high fields, which limits the strengths of the RF fields that can be applied.
@article{sinha_spinal_2005,
abstract = {Continuous wave irradiation has limited bandwidth for heteronuclear 1H decoupling at high fields and for 13C decoupling in 1H/13C/15N triple-resonance experiments. SPINAL-16 modulation is shown to improve the efficiency of 1H and 13C heteronuclear decoupling on single crystals of peptides and on magnetically aligned samples of membrane proteins in bicelles, which is of particular importance because aqueous samples of biomolecules are lossy at high fields, which limits the strengths of the RF fields that can be applied.},
added-at = {2017-03-14T02:48:56.000+0100},
author = {Sinha, Neeraj and Grant, Christopher V and Wu, Chin H and {De Angelis}, Anna A and Howell, Stanley C and Opella, Stanley J},
biburl = {https://www.bibsonomy.org/bibtex/258d26ff27bf9f6dfcc87c7e94101a4df/nmrresource},
doi = {10.1016/j.jmr.2005.07.008},
interhash = {c0c782c468c32ec8a921c3f86eb620ab},
intrahash = {58d26ff27bf9f6dfcc87c7e94101a4df},
issn = {1090-7807},
journal = {J. Magn. Reson.},
keywords = {Bacteriophages,Biomolecular,Carbon Bonding,Nitrogen Isotopes,Glycine,Hydrogen Isotopes,Nuclear Magnetic Resonance,Peptides},
month = dec,
number = 2,
pages = {197--202},
pmid = {16137902},
timestamp = {2017-03-14T02:49:21.000+0100},
title = {{{\{}SPINAL{\}} modulated decoupling in high field double- and triple-resonance solid-state {\{}NMR{\}} experiments on stationary samples}},
volume = 177,
year = 2005
}