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Backbone dynamics of bacteriorhodopsin as studied by 13C solid-state NMR spectroscopy
Authors:Patrick?Barré,Satoru?Yamaguchi,Hazime?Sait?  mailto:saito@sci.himeji-tech.ac.jp"   title="  saito@sci.himeji-tech.ac.jp"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author,Daniel?Huster  mailto:husd@medizin.uni-leipzig.de"   title="  husd@medizin.uni-leipzig.de"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author
Affiliation:(1) Junior Research Group "Solid-state NMR Studies of the Structure of Membrane-associated Proteins", Biotechnological-Biomedical Center, University of Leipzig, Liebigstrasse 27, 04103 Leipzig, Germany;(2) Institute of Medical Physics and Biophysics, University of Leipzig, Liebigstrasse 27, 04103 Leipzig, Germany;(3) Department of Life Science, Himeji Institute of Technology, Harima Science Garden City, Kamigori, 678-1297 Hyogo , Japan
Abstract:
The surface dynamics of bacteriorhodopsin was examined by measurements of site-specific 13C–1H dipolar couplings in [3-13C]Ala-labeled bacteriorhodopsin. Motions of slow or intermediate frequency (correlation time <50 µs) scale down 13C–1H dipolar couplings according to the motional amplitude. The two-dimensional dipolar and chemical shift (DIPSHIFT) correlation technique was utilized to obtain the dipolar coupling strength for each resolved peak in the 13C MAS solid-state NMR spectrum, providing the molecular order parameter of the respective site. In addition to the rotation of the Ala methyl group, which scales the dipolar coupling to 1/3 of the rigid limit value, fluctuations of the Cagr–Cbeta vector result in additional motional averaging. Typical order parameters measured for mobile sites in bacteriorhodopsin are between 0.25 and 0.29. These can be assigned to Ala103 of the C–D loop and Ala235 at the C-terminal agr-helix protruded from the membrane surface, and Ala196 of the F–G loop, as well as to Ala228 and Ala233 of the C-terminal agr-helix and Ala51 from the transmembrane agr-helix. Such order parameters departing significantly from the value of 0.33 for rotating methyl groups are obviously direct evidence for the presence of fluctuation motions of the Ala Cagr–Cbeta vectors of intact preparations of fully hydrated, wild-type bacteriorhodopsin at ambient temperature. The order parameter for Ala160 from the expectantly more flexible E–F loop, however, is unavailable under highest-field NMR conditions, probably because increased chemical shift anisotropy together with intrinsic fluctuation motions result in an unresolved 13C NMR signal.
Keywords:13C MAS NMR  Dipolar coupling  DIPSHIFT  Membrane protein  Order parameter
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