%0 Journal Article %1 wu_1h-13c_2010 %A Wu, Chin H %A Das, Bibhuti B %A Opella, Stanley J %D 2010 %J J. Magn. Reson. %K Alanine,Algorithms,Bacteriophage Concentration,Magnetic Fields,Hydrogen-Ion Magnetic Pf1,Biomolecular,Electromagnetic Proteins Resonance Resonance,Peptides,Proteins,Protons,Terminology Spectroscopy,Methylation,Nuclear Topic,Viral as %N 2 %P 127--134 %R 10.1016/j.jmr.2009.10.007 %T (1)\H\-(13)\C\ \Hetero\-nuclear dipole-dipole couplings of methyl groups in stationary and magic angle spinning solid-state \NMR\ experiments of peptides and proteins %V 202 %X (13)C NMR of isotopically labeled methyl groups has the potential to combine spectroscopic simplicity with ease of labeling for protein NMR studies. However, in most high resolution separated local field experiments, such as polarization inversion spin exchange at the magic angle (PISEMA), that are used to measure (1)H-(13)C hetero-nuclear dipolar couplings, the four-spin system of the methyl group presents complications. In this study, the properties of the (1)H-(13)C hetero-nuclear dipolar interactions of (13)C-labeled methyl groups are revealed through solid-state NMR experiments on a range of samples, including single crystals, stationary powders, and magic angle spinning of powders, of (13)C(3) labeled alanine alone and incorporated into a protein. The spectral simplifications resulting from proton detected local field (PDLF) experiments are shown to enhance resolution and simplify the interpretation of results on single crystals, magnetically aligned samples, and powders. The complementarity of stationary sample and magic angle spinning (MAS) measurements of dipolar couplings is demonstrated by applying polarization inversion spin exchange at the magic angle and magic angle spinning (PISEMAMAS) to unoriented samples.

@article{wu_1h-13c_2010, abstract = {(13)C NMR of isotopically labeled methyl groups has the potential to combine spectroscopic simplicity with ease of labeling for protein NMR studies. However, in most high resolution separated local field experiments, such as polarization inversion spin exchange at the magic angle (PISEMA), that are used to measure (1)H-(13)C hetero-nuclear dipolar couplings, the four-spin system of the methyl group presents complications. In this study, the properties of the (1)H-(13)C hetero-nuclear dipolar interactions of (13)C-labeled methyl groups are revealed through solid-state NMR experiments on a range of samples, including single crystals, stationary powders, and magic angle spinning of powders, of (13)C(3) labeled alanine alone and incorporated into a protein. The spectral simplifications resulting from proton detected local field (PDLF) experiments are shown to enhance resolution and simplify the interpretation of results on single crystals, magnetically aligned samples, and powders. The complementarity of stationary sample and magic angle spinning (MAS) measurements of dipolar couplings is demonstrated by applying polarization inversion spin exchange at the magic angle and magic angle spinning (PISEMAMAS) to unoriented samples.}, added-at = {2017-03-14T02:48:56.000+0100}, author = {Wu, Chin H and Das, Bibhuti B and Opella, Stanley J}, biburl = {https://www.bibsonomy.org/bibtex/20bcde6a5fe820bbf70064015829345d7/nmrresource}, doi = {10.1016/j.jmr.2009.10.007}, interhash = {d6e9cd9d9eb17cba127e8e4dbbaf67b8}, intrahash = {0bcde6a5fe820bbf70064015829345d7}, issn = {1096-0856}, journal = {J. Magn. Reson.}, keywords = {Alanine,Algorithms,Bacteriophage Concentration,Magnetic Fields,Hydrogen-Ion Magnetic Pf1,Biomolecular,Electromagnetic Proteins Resonance Resonance,Peptides,Proteins,Protons,Terminology Spectroscopy,Methylation,Nuclear Topic,Viral as}, month = feb, number = 2, pages = {127--134}, pmid = {19896874}, timestamp = {2017-03-14T02:49:21.000+0100}, title = {{(1){\{}H{\}}-(13){\{}C{\}} {\{}Hetero{\}}-nuclear dipole-dipole couplings of methyl groups in stationary and magic angle spinning solid-state {\{}NMR{\}} experiments of peptides and proteins}}, volume = 202, year = 2010 }