Curated Optogenetic Publication Database

Abstract: The past decade has witnessed enormous progress in optogenetics, which uses photo-sensitive proteins to control signal transduction in live cells and animals. The ever-increasing amount of optogenetic tools, however, could overwhelm the selection of appropriate optogenetic strategies. In this work, we summarize recent progress in this emerging field and highlight the application of opsin-free optogenetics in studying embryonic development, focusing on new insights gained into optical induction of morphogenesis, cell polarity, cell fate determination, tissue differentiation, neuronal regeneration, synaptic plasticity, and removal of cells during development.

Abstract: The Cre-loxP system has been widely used for specific DNA recombination which induces gene inactivation or expression. Recently, photoactivatable-Cre (PA-Cre) proteins have been developed as a tool for spatiotemporal control of the enzymatic activity of Cre recombinase. Here, we generated transgenic mice bearing a PA-Cre gene and systematically investigated the conditions of photoactivation for the PA-Cre in embryonic stem cells (ESCs) derived from the transgenic mice and in a simple mathematical model. Cre-mediated DNA recombination was induced in 16% of the PA-Cre ESCs by 6 hr continuous illumination. We show that repetitive pulsed illumination efficiently induced DNA recombination with low light energy as efficient as continuous illumination in the ESCs (96 ± 15% of continuous illumination when pulse cycle was 2 s), which was also supported by a minimal mathematical model. DNA recombination by the PA-Cre was also successfully induced in the transgenic mouse pre-implantation embryos under the developed conditions. These results suggest that strategies based on repetitive pulsed illumination are efficient for the activation of photoactivatable Cre and, possibly other photo-switchable proteins.