Opsin biosynthesis and trans-cis isomerization of aldehyde form chromophore in the blowfly Calliphora erythrocephala eye

The effect of eye carotenoid content, light conditions and retinoid supply on the biosynthesis of opsin, as well as the ability to isomerize of exogenous all-trans-retinal to 11-cis-retinal were investigated in the photoreceptors of blowfly Calliphora. SDS-PAGE of digitonin extracts from isolated rhabdom fractions of carotenoid-fortified and carotenoid-deficient animals revealed, on heavily loaded gels, that in both cases opsin forms faint minor bands similar to the patterns of “R⁻-flies” described as “vitamin A-deficient flies” (Paulsen and Schwemer, Biochim. biophys Acta 557, 358–390, 1979) or “carotenoid-deficient flies” (Paulsen and Schwemer, Eur. J. Biochem. 137, 609–614, 1983. Similar opsin patterns were obtained in flies subjected to continuous 72 h blue or yellow-green light or to a 12 h: 12 h white light:dark cycle, or total darkness, irrespective of the carotenoid content in their eyes. 11-cis-retinal and, to a lesser extent, all-trans-retinal, when included in the diet or painted on the cornea, were found to stimulate opsin biosynthesis in the dark. 11-cis-retinal in the dark or all-trans-retinal after illumination of the flies with blue light were the most effective, as compared with the effect of all-trans-retinal in the dark. Exogenous all-trans-retinal in the dark can be partially converted into a mixture of 11-cis-retinal (26%) and 13-cis-retinal (74%) by fly retina homogenate in vitro. It was concluded that Calliphora opsin biosynthesis is not strongly dependent on the carotenoid supply or on light: dark conditions and is triggered by the 11-cis aldehyde form of the chromophore, which can be produced in the fly retina either by an isomerase system in the dark or as a result of photoisomerization.