[NMR paper] (2)H-(13)C correlation solid-state NMR for investigating dynamics and water accessibilities of proteins and carbohydrates.

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(2)H-(13)C correlation solid-state NMR for investigating dynamics and water accessibilities of proteins and carbohydrates.

(2)H-(13)C correlation solid-state NMR for investigating dynamics and water accessibilities of proteins and carbohydrates.

J Biomol NMR. 2017 Jul 03;:

Authors: Gelenter MD, Wang T, Liao SY, O'Neill H, Hong M

Abstract
Site-specific determination of molecular motion and water accessibility by indirect detection of (2)H NMR spectra has advantages over dipolar-coupling based techniques due to the large quadrupolar couplings and the ensuing high angular resolution. Recently, a Rotor Echo Short Pulse IRrAdiaTION mediated cross polarization ((RESPIRATION)CP) technique was developed, which allowed efficient transfer of (2)H magnetization to (13)C at moderate (2)H radiofrequency field strengths available on most commercial MAS probes. In this work, we investigate the (2)H-(13)C magnetization transfer characteristics of one-bond perdeuterated CD n spin systems and two-bond H/D exchanged C-(O)-D and C-(N)-D spin systems in carbohydrates and proteins. Our results show that multi-bond, broadband (2)H-(13)C polarization transfer can be achieved using (2)H radiofrequency fields of ~50*kHz, relatively short contact times of 1.3-1.7*ms, and with sufficiently high sensitivity to enable 2D (2)H-(13)C correlation experiments with undistorted (2)H spectra in the indirect dimension. To demonstrate the utility of this (2)H-(13)C technique for studying molecular motion, we show (2)H-(13)C correlation spectra of perdeuterated bacterial cellulose, whose surface glucan chains exhibit a motionally averaged C6 (2)H quadrupolar coupling that indicates fast trans-gauche isomerization about the C5-C6 bond. In comparison, the interior chains in the microfibril core are fully immobilized. Application of the (2)H-(13)C correlation experiment to H/D exchanged Arabidopsis primary cell walls show that the O-D quadrupolar spectra of the highest polysaccharide peaks can be fit to a two-component model, in which 74% of the spectral intensity, assigned to cellulose, has a near-rigid-limit coupling, while 26% of the intensity, assigned to matrix polysaccharides, has a weakened coupling of 50*kHz. The latter O-D quadrupolar order parameter of 0.22 is significantly smaller than previously reported C-D dipolar order parameters of 0.46-0.55 for pectins, suggesting that additional motions exist at the C-O bonds in the wall polysaccharides. (2)H-(13)C polarization transfer profiles are also compared between statistically deuterated and H/D exchanged GB1.


PMID: 28674916 [PubMed - as supplied by publisher]



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