Photochemistry of the Retinal Chromophore in Microbial Rhodopsins.

Microbial rhodopsins are photoreceptive membrane proteins of microorganisms that express diverse photobiological functions. All- trans -retinylidene Schiff base, the so-called all- trans -retinal, is a chromophore of microbial rhodopsins, which captures photons. It isomerizes into the 13- cis form upon photoexcitation. Isomerization of retinal leads to sequential conformational changes in the protein, giving rise to active states that exhibit biological functions. Despite the rapidly expanding diversity of microbial rhodopsin functions, the photochemical behaviors of retinal were considered to be common among them. However, the retinal of many recently discovered rhodopsins was found to exhibit new photochemical characteristics, such as highly red-shifted absorption, isomerization to 7- cis and 11- cis forms, and energy transfer from a secondary carotenoid chromophore to the retinal, which is markedly different from that established in canonical microbial rhodopsins. Here, I review new aspects of retinal found in novel microbial rhodopsins and highlight the emerging problems that need to be addressed to understand noncanonical retinal photochemistry.