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Old 03-02-2014, 01:53 AM
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Default Proton-Detected 2D Radio Frequency Driven Recoupling Solid-state NMR Studies on Micelle-associated Cytochrome-b5

Proton-Detected 2D Radio Frequency Driven Recoupling Solid-state NMR Studies on Micelle-associated Cytochrome-b5

Publication date: Available online 1 March 2014
Source:Journal of Magnetic Resonance

Author(s): Manoj Kumar Pandey , Subramanian Vivekanandan , Kazutoshi Yamamoto , Sangchoul Im , Lucy Waskell , Ayyalusamy Ramamoorthy

Solid-state NMR spectroscopy is increasingly used in the high-resolution structural studies of membrane-associated proteins and peptides. Most such studies necessitate isotopically labeled (13C, 15N and 2H) proteins/peptides, which is a limiting factor for some of the exciting membrane-bound proteins and aggregating peptides. In this study, we report the use of a proton-based slow magic angle spinning (MAS) solid-state NMR experiment that exploits the unaveraged 1H-1H dipolar couplings from a membrane-bound protein. We have shown that the difference in the buildup rates of cross peak intensities against the mixing time - obtained from 2D 1H-1H radio frequency-driven recoupling (RFDR) and nuclear Overhauser effect spectroscopy (NOESY) experiments on a 16.7-kDa micelle-associated full-length rabbit cytochrome-b5 (cytb5) - can provide insights into protein dynamics and could be useful to measure 1H-1H dipolar couplings. The experimental buildup curves compare well with theoretical simulations and are used to extract relaxation parameters. Our results show that due to fast exchange of amide protons with water in the soluble heme-containing domain of cyb5, coherent 1H-1H dipolar interactions are averaged out for these protons while alpha and side chain protons show residual dipolar couplings that can be obtained from 1H-1H RFDR experiments. The appearance of resonances with distinct chemical shift values in 1H-1H RFDR spectra enabled the identification of residues (mostly from the transmembrane region) of cytb5 that interact with micelles.
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