Optogenetic Potentials of Diverse Animal Opsins: Parapinopsin, Peropsin, LWS Bistable Opsin.

Abstract

Animal opsin-based pigments are light-activated G-protein-coupled receptors (GPCRs), which drive signal transduction cascades via G-proteins. Thousands of animal opsins have been identified, and molecular phylogenetic and biochemical analyses have revealed the unexpected diversity in selectivity of G-protein activation and photochemical property. Here we discuss the optogenetic potentials of diverse animal opsins, particularly recently well-characterized three non-canonical opsins, parapinopsin, peropsin, and LWS bistable opsin. Unlike canonical opsins such as vertebrate visual opsins that have been conventionally used for optogenetic applications, these opsins are bistable; opsin-based pigments do not release the chromophore retinal after light absorption, and the stable photoproducts revert to their original dark states upon subsequent light absorption. Parapinopsins have a "complete photoregeneration ability," which allows a clear color-dependent regulation of signal transductions. On the other hand, peropsins serve as a "dark-active and light-inactivated" GPCR to regulate signal transductions in the opposite way compared with usual opsins. In addition, an LWS bistable opsin from a butterfly was revealed to be the longest wavelength-sensitive animal opsin with its absorption maximum at ~570nm. The property-dependent optical regulations of signal transductions were demonstrated in mammalian cultured cells, showing potentials of new optogenetic tools.