Curated Optogenetic Publication Database

Abstract: Optogenetics initially used plant photoreceptors to monitor neural circuits, later it has expanded to include engineered plant photoreceptors. Recently photoreceptors from bacteria, algae and cyanobacteria have been used as an optogenetic tool. Bilin-based photoreceptors are common light-sensitive photoswitches in plants, algae, bacteria and cyanobacteria. Here we discuss the photoreceptors from cyanobacteria. Several new photoreceptors have been explored in cyanobacteria which are now proposed as cyanobacteriochrome. The domains in the cyanobacteriochrome, light-induced signaling transduction, photoconversion, are the most attractive features for the optogenetic system. The wider spectral feature of cyanobacteriochrome from UV to visible radiation makes it a light potential sensitive optogenetic tool. Besides, cyanobacterial phytochrome responses to yellow, orange and blue light have more application in optogenetics. This chapter summarizes the photoconversion, phototaxis, cell aggregation, cell signaling mediated by cyanobacteriochrome and cyanophytochrome. As there is a wide range of cyanobacteriochrome and its combination delivers a varied light-sensitive response. Besides coordination among cyanobacteriochromes in cell signaling reduces the engineering of photoreceptors for the optogenetic system.

Abstract: Cell–cell adhesions are fundamental in regulating multicellular behavior and lie at the center of many biological processes from embryoid development to cancer development. Therefore, controlling cell–cell adhesions is fundamental to gaining insight into these phenomena and gaining tools that would help in the bioartificial construction of tissues. For addressing biological questions as well as bottom-up tissue engineering the challenge is to have multiple cell types self-assemble in parallel and organize in a desired pattern from a mixture of different cell types. Ideally, different cell types should be triggered to self-assemble with different stimuli without interfering with the other and different types of cells should sort out in a multicellular mixture into separate clusters. In this chapter, we will summarize the developments in photoregulation cell–cell adhesions using non-neuronal optogenetics. Among the concepts, we will cover is the control of homophylic and heterophilic cell–cell adhesions, the independent control of two different types with blue or red light and the self-sorting of cells into distinct structures and the importance of cell–cell adhesion dynamics. These tools will give an overview of how the spatiotemporal regulation of cell–cell adhesion gives insight into their role and how tissues can be assembled from cells as the basic building block.