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Abstract

The electrical activity of bacteriorhodopsin (BR) containing the 13-substituted retinal analogues 13-demethyl and 13-methoxy as well as the naturally occurring retinal carrying a methyl group at C13 is compared. White membrane patches reconstituted with the different retinals are attached to a black lipid membrane, and the dependency of the photocurrent on light intensity is measured. This allows a comparison of the overall photocycle time and the number of protons transported per cycle for the various preparations. From previous work (Gärtner, W., Towner, P., Hopf, H. and Oesterhelt, D. (1983) Biochem. 22, 2637–2644, see also Gärtner, W. and Oesterhelt, D., unpublished data) the equilibrium isomeric distribution (all-trans and 13-cis) of the different retinals in the binding site is known. Taking into account that only all-trans retinal BR contributes to the pumping activity (Fahr, A. and Bamberg, E. (1982) FEBS Lett. 140, 251–253), it is shown, that the cycle time for the modified BRs is moderately changed, whereas the number of protons transported per cycle and transporting all-trans BR molecule is not affected by the substituent. It is concluded, that substituting the methyl group at position 13 of the retinal molecule by a hydrogen atom or a methoxy group only slightly affects the pumping activity of the trans-photocycle, but rather controls the biological function of BR via the equilibrium isomeric distribution of the retinal molecule in the binding site.