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  • CH3-specific NMR assignment of alanine, isoleucine, leucine and valine methyl groups in high molecular weight proteins using a single sample.

CH3-specific NMR assignment of alanine, isoleucine, leucine and valine methyl groups in high molecular weight proteins using a single sample.

Journal of biomolecular NMR (2015-11-15)
Rime Kerfah, Olivier Hamelin, Jérôme Boisbouvier, Dominique Marion
摘要

A new strategy for the NMR assignment of aliphatic side-chains in large perdeuterated proteins is proposed. It involves an alternative isotopic labeling protocol, the use of an out-and-back (13)C-(13)C TOCSY experiment ((H)C-TOCSY-C-TOCSY-(C)H) and an optimized non-uniform sampling protocol. It has long been known that the non-linearity of an aliphatic spin-system (for example Ile, Val, or Leu) substantially compromises the efficiency of the TOCSY transfers. To permit the use of this efficient pulse scheme, a series of optimized precursors were designed to yield linear (13)C perdeuterated side-chains with a single protonated CH3 group in these three residues. These precursors were added to the culture medium for incorporation into expressed proteins. For Val and Leu residues, the topologically different spin-systems introduced for the pro-R and pro-S methyl groups enable stereospecific assignment. All CH3 can be simultaneously assigned on a single sample using a TOCSY experiment. It only requires the tuning of a mixing delay and is thus more versatile than the relayed COSY experiment. Enhanced resolution and sensi-tivity can be achieved by non-uniform sampling combined with the removal of the large JCC coupling by deconvolution prior to the processing by iterative soft thresholding. This strategy has been used on malate synthase G where a large percentage of the CH3 groups could be correlated directly up to the backbone Ca. It is anticipated that this robust combined strategy can be routinely applied to large proteins.

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Sigma-Aldrich
丁酸, ≥99%
Sigma-Aldrich
丁酸, natural, ≥99%, FCC, FG
Sigma-Aldrich
丁酸, ≥99%, FG