On coenzyme Q orientation in membranes: A linear dichroism study of ubiquinones in a model bilayer |
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Authors: | Bruno Samorì Giorgio Lenaz Maurizio Battino Giancarlo Marconi Ida Domini |
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Affiliation: | (1) Dipartimento di Chimica Organica, A. Mangini, Universitá, 40136 Bologna;(2) Dipartimento di Chimica, Università della Calabria, 87030 Arcavacata di Rende;(3) Dipartimento di Biochimica, 40126 Bologna;(4) Istituto di Biochimica, Università, Ancona;(5) CNR-FRAE, Bologna;(6) Dipartimento di Chimica Industriale e dei Materiali, Bologna, Italy |
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Abstract: | Summary A general approach is developed to interpret linear dichroism (LD) spectra of ubiquinones (Qn) in host bilayers. Information is reported in terms of guest-host mutual orientation and localization. The overall orientational anisotropy of guest ubiquinone molecules is described by a basic set of limiting orientation/localization modes. Assignments of the UV transitions of the ubiquinone chromophore were obtained by the liquid crystal-linear dichroism technique and molecular orbital (CNDO/S) calculations. The LD spectra of Qn in the bilayers provided by the lyotropic nematic mesophase exhibited by water solutions of potassium laurate and decanol were interpreted on the basis of the above assignments. The resulting experimental evidence showed a multisite distribution in the host bilayer for the aromatic heads of all the investigated Qn derivatives except Q0. The orientational distribution suggested by the LD spectra fits the solubilization model recently proposed by G. Lenaz [J. Membrane Biol. (1988) 104:193–209] for ubiquinone in lipid membranes. Within this model Qn molecules are located in the midplane and their headgroups oscillate transversally across the membrane. Q0 instead has a single site location, close to the polar bilayer interface. Experimental evidence that the headgroup carbonyls tend to grasp the polar interface of the host bilayer was also obtained. Orientation and location distributions of Qn guest molecules are therefore likely to result from the tendency of their aromatic heads to grasp the polar heads of the host bilayer and from the concurrent tendency of their chains to settle into the hydrocarbon host interior.abbreviations AA average absorption - OD, OD optical densities for plane polarized radiations parallel () and perpendicular () to the sample optical axis - OD OD — OD - EPR electron paramagnetic resonance - LC-LD liquid crystal-linear dichroism - LD linear dichroism - LDr reduced linear dichroism. - MO molecular orbital - N nematic - NMR nuclear magnetic resonance - Sjj order parameters of the directions j of the transition moments of the guest chromophore - Sii order parameters of the orientational axes i of the guest molecule with respect to the magnetic field - Sii order parameters of the axes i of the guest molecules with respect to the bilayer axis a - Sa order parameters of the host bilayer axis a with respect to the orienting magnetic field - j,i deflection angles between the directions j and the axes i - Oi optical factors of the i axis see Eq. (A4)] - Qn ubiquinone whose isoprenoid chain contains n isoprenoid unitsDr. A. Rossi is gratefully acknowledged for the t.e.m. reduction of the spectra. Ubiquinone homologs were kind gifts from Eisai Co., Tokyo, Japan. This work was supported by M.U.R.S.T., and C.N.R. Target Project on Biotechnology and Bioinstrumentation, Rome, Italy. |
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Keywords: | coenzyme Q ubiquinone-orientation ubiquinone-localization linear dichroism model membrane |
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