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Light-Inducible Recombinases for Bacterial Optogenetics

Michael B. Sheets, Wilson W. Wong, Mary J. Dunlop

2020ACS Synthetic Biology63 citationsDOIOpen Access PDF

Abstract

Optogenetic tools can provide direct and programmable control of gene expression. Light-inducible recombinases, in particular, offer a powerful method for achieving precise spatiotemporal control of DNA modification. However, to-date this technology has been largely limited to eukaryotic systems. Here, we develop optogenetic recombinases for Escherichia coli that activate in response to blue light. Our approach uses a split recombinase coupled with photodimers, where blue light brings the split protein together to form a functional recombinase. We tested both Cre and Flp recombinases, Vivid and Magnet photodimers, and alternative protein split sites in our analysis. The optimal configuration, Opto-Cre-Vvd, exhibits strong blue light-responsive excision and low ambient light sensitivity. For this system we characterize the effect of light intensity and the temporal dynamics of light-induced recombination. These tools expand the microbial optogenetic toolbox, offering the potential for precise control of DNA excision with light-inducible recombinases in bacteria.

Topics & Concepts

RecombinaseOptogeneticsSynthetic biologyBiologyCre recombinaseComputational biologyGeneticsGeneRecombinationTransgeneNeuroscienceGenetically modified mousePhotoreceptor and optogenetics researchLight effects on plantsCRISPR and Genetic Engineering
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