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Title: Quantitative analysis of backbone dynamics in a crystalline protein from nitrogen-15 spin-lattice relaxation. Author: Giraud N, Blackledge M, Goldman M, Böckmann A, Lesage A, Penin F, Emsley L. Journal: J Am Chem Soc; 2005 Dec 28; 127(51):18190-201. PubMed ID: 16366572. Abstract: A detailed analysis of nitrogen-15 longitudinal relaxation times in microcrystalline proteins is presented. A theoretical model to quantitatively interpret relaxation times is developed in terms of motional amplitude and characteristic time scale. Different averaging schemes are examined in order to propose an analysis of relaxation curves that takes into account the specificity of MAS experiments. In particular, it is shown that magic angle spinning averages the relaxation rate experienced by a single spin over one rotor period, resulting in individual relaxation curves that are dependent on the orientation of their corresponding carousel with respect to the rotor axis. Powder averaging thus leads to a nonexponential behavior in the observed decay curves. We extract dynamic information from experimental decay curves, using a diffusion in a cone model. We apply this study to the analysis of spin-lattice relaxation rates of the microcrystalline protein Crh at two different fields and determine differential dynamic parameters for several residues in the protein.[Abstract] [Full Text] [Related] [New Search]