Abstract
Proton nuclear spins of dodecyl phosphocholine molecules below the critical micelle concentration are hyperpolarized by using dissolution dynamic nuclear polarization (D-DNP). NMR signal enhancements of 1210±400 and 1610±550 are obtained at 9.4 T, for choline methyls in the head group of the lipid and for the tail-end methyl group, respectively. This polarization is transferred to the unfolded protein through the nuclear Overhauser effect, after dilution to a final denaturant concentration of 0.8 M urea. As a result, the amide and aromatic side-chain signals of the protein are increased up to sixfold. Selective inversion pulses applied either on the head-group or tail-group of the lipid are used to identify the source of the transferred polarization. The normalized cross-relaxation rates of σN,tail =-1.8±0.1 s-1 M-1 and σN,head =-0.5±0.3 s-1 M-1 are obtained, showing a larger polarization transfer from the tail groups. These cross-relaxation rates are determined at a low urea concentration, which constitutes refolding conditions for the protein. The sensitivity enhancement by D-DNP permits to access these conditions with a measurement time on the order of seconds, and may further open the possibility to investigate structural changes in membrane proteins during folding.
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More From: Chembiochem : a European journal of chemical biology
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