Related ArticlesMethods to Identify the NMR Resonances of the 13C-Dimethyl N-terminal Amine on Reductively Methylated Proteins.
J Vis Exp. 2013;(82)
Authors: Roberson KJ, Brady PN, Sweeney MM, Macnaughtan MA
Abstract
Nuclear magnetic resonance (NMR) spectroscopy is a proven technique for protein structure and dynamic studies. To study proteins with NMR, stable magnetic isotopes are typically incorporated metabolically to improve the sensitivity and allow for sequential resonance assignment. Reductive (13)C-methylation is an alternative labeling method for proteins that are not amenable to bacterial host over-expression, the most common method of isotope incorporation. Reductive (13)C-methylation is a chemical reaction performed under mild conditions that modifies a protein's primary amino groups (lysine ?-amino groups and the N-terminal ?-amino group) to (13)C-dimethylamino groups. The structure and function of most proteins are not altered by the modification, making it a viable alternative to metabolic labeling. Because reductive (13)C-methylation adds sparse, isotopic labels, traditional methods of assigning the NMR signals are not applicable. An alternative assignment method using mass spectrometry (MS) to aid in the assignment of protein (13)C-dimethylamine NMR signals has been developed. The method relies on partial and different amounts of (13)C-labeling at each primary amino group. One limitation of the method arises when the protein's N-terminal residue is a lysine because the ?- and ?-dimethylamino groups of Lys1 cannot be individually measured with MS. To circumvent this limitation, two methods are described to identify the NMR resonance of the (13)C-dimethylamines associated with both the N-terminal ?-amine and the side chain ?-amine. The NMR signals of the N-terminal ?-dimethylamine and the side chain ?-dimethylamine of hen egg white lysozyme, Lys1, are identified in (1)H-(13)C heteronuclear single-quantum coherence spectra.
An intraresidual i(HCA)CO(CA)NH experiment for the assignment of main-chain resonances in 15N, 13C labeled proteins
An intraresidual i(HCA)CO(CA)NH experiment for the assignment of main-chain resonances in 15N, 13C labeled proteins
Abstract An improved pulse sequence, intraresidual i(HCA)CO(CA)NH, is described for establishing solely 13Câ?²(i), 15N(i), 1HN(i) connectivities in uniformly 15N/13C-labeled proteins. In comparison to the â??out-and-backâ?? style intra-HN(CA)CO experiment, the new pulse sequence offers at least two-fold higher experimental resolution in the 13Câ?² dimension and on average 1.6 times higher sensitivity especially for residues in α-helices. Performance of the new experiment...
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The unambiguous assignment of the aromatic ring resonances in proteins has been severely hampered by the inherently poor sensitivities of the currently available methodologies developed for uniformly 13C/15N-labeled...
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Nuclear magnetic resonance (NMR) spectroscopy is a powerful technique for studying bimolecular interactions at the atomic scale. Our NMR laboratory is involved in the identification of small molecules, or ligands, that bind to target protein...
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http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--linkinghub.elsevier.com-ihub-images-cellhub.gif http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www.pubmedcentral.nih.gov-corehtml-pmc-pmcgifs-pubmed-pmc.gif Related Articles One- and two-dimensional proton NMR studies of cys-102 S-methylated yeast isozyme-1 ferricytochrome c.
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Narrow carbonyl resonances in proton-diluted proteins facilitate NMR assignments in t
Abstract HNCO/HNCACO type correlation experiments are an alternative for assignment of backbone resonances in extensively deuterated proteins in the solid-state, given the fact that line widths on the order of 14â??17 Hz are achieved in the carbonyl dimension without the need of high power decoupling. The achieved resolution demonstrates that MAS solid-state NMR on extensively deuterated proteins is able to compete with solution-state NMR spectroscopy if proteins are investigated with correlation times Ï? c that exceed 25 ns.
Content Type Journal Article
DOI...
Methods to Identify the NMR Resonances of the 13C-Dimethyl N-terminal Amine on Reductively Methylated Proteins.
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