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Multiple opsins in a reef-building coral, Acropora millepora

Benjamin Mason, Mitsumasa Koyanagi, Tomohiro Sugihara, Makoto Iwasaki, Vladlen Z. Slepak, David J. Miller, Yusuke Sakai, Akihisa Terakita

2023Scientific Reports29 citationsDOIOpen Access PDF

Abstract

Abstract Opsins, light-sensitive G protein-coupled receptors, have been identified in corals but their properties are largely unknown. Here, we identified six opsin genes (acropsins 1–6) from a coral species Acropora millepora , including three novel opsins (acropsins 4–6), and successfully characterized the properties of four out of the six acropsins. Acropsins 1 and 6 exhibited light-dependent cAMP increases in cultured cells, suggesting that the acropsins could light-dependently activate Gs-type G protein like the box jellyfish opsin from the same opsin group. Spectral sensitivity curves having the maximum sensitivities at ~ 472 nm and ~ 476 nm were estimated for acropsins 1 and 6, respectively, based on the light wavelength-dependent cAMP increases in these opsins-expressing cells (heterologous action spectroscopy). Acropsin 2 belonging to the same group as acropsins 1 and 6 did not induce light-dependent cAMP or Ca 2+ changes. We then successfully estimated the acropsin 2 spectral sensitivity curve having its maximum value at ~ 471 nm with its chimera mutant which possessed the third cytoplasmic loop of the Gs-coupled jellyfish opsin. Acropsin 4 categorized as another group light-dependently induced intracellular Ca 2+ increases but not cAMP changes. Our results uncovered that the Acropora coral possesses multiple opsins coupling two distinct cascades, cyclic nucleotide and Ca 2+ signaling light-dependently.

Topics & Concepts

OpsinRhodopsinBiologyCoralCell biologyEvolutionary biologyBiophysicsBotanyEcologyRetinalPhotoreceptor and optogenetics researchCoral and Marine Ecosystems StudiesNeurobiology and Insect Physiology Research
Multiple opsins in a reef-building coral, Acropora millepora | Litcius