Abstract
An approach to protein dynamics analysis from 15N relaxation data is demonstrated, based on multiple-field relaxation data. This provides a direct, residue-specific determination of both the spectral density components, the 15N chemical shift anisotropy (CSA) and the conformational exchange contribution to the 15N line width. Measurements of R1, R2, and 15N{1H} NOE are used. The approach is free from any assumption about the values of the CSA or of the conformational exchange. Using this approach, the spectral densities, the values of 15N CSA, and the conformational exchange contribution to the 15N line width are directly determined from the relaxation data for human ubiquitin, collected at 360, 500, and 600 MHz. The spectral densities are analyzed in terms of the order parameter and the correlation time of local motion, using an axially symmetric overall rotational diffusion model. The residue-specific values of 15N CSA and the spectral densities obtained using this approach are in agreement with those d...
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