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Protein-induced bonding perturbation of the rhodopsin chromophore detected by double-quantum solid-state NMR
Authors:Carravetta Marina  Zhao Xin  Johannessen Ole G  Lai Wai Cheu  Verhoeven Michiel A  Bovee-Geurts Petra H M  Verdegem Peter J E  Kiihne Suzanne  Luthman Henrik  de Groot Huub J M  deGrip Willem J  Lugtenburg Johan  Levitt Malcolm H
Affiliation:Physical Chemistry Division, Stockholm University, S-106 91 Stockholm, Sweden.
Abstract:We have obtained carbon-carbon bond length data for the functional retinylidene chromophore of rhodopsin, with a spatial resolution of 3 pm. The very high resolution was obtained by performing double-quantum solid-state NMR on a set of noncrystalline isotopically labelled bovine rhodopsin samples. We detected localized perturbations of the carbon-carbon bond lengths of the retinylidene chromophore. The observations are consistent with a model in which the positive charge of the protonated Schiff base penetrates into the polyene chain and partially concentrates around the C13 position. This coincides with the proximity of a water molecule located between the glutamate-181 and serine-186 residues of the second extracellular loop, which is folded back into the transmembrane region. These measurements support the hypothesis that the polar residues of the second extracellular loop and the associated water molecule assist the rapid selective photoisomerization of the retinylidene chromophore by stabilizing a partial positive charge in the center of the polyene chain.
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