Illuminating bacterial behaviors with optogenetics

Abstract

Optogenetic approaches enable light-mediated control of cellular activities using genetically encoded photoreceptors. While optogenetic technology is already well established in neuroscience and fundamental research, the implementation of optogenetic tools in bacteriology is still emerging. Engineered bacteria with the specific optogenetic system that function at the transcriptional or post-translational level can sense and respond to light, allowing optogenetic control of bacterial behaviors. In this review, we give a brief overview of available optogenetic systems, including their mode of action, classification, and engineering strategies, and focus on optogenetic control of bacterial behaviors with the highlight of strategies for use of optogenetic systems.