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A High-Efficacy CRISPR Interference System for Gene Function Discovery in Zymomonas mobilis

Amy B. Banta, Amy L. Enright, Cheta Siletti, Jason M. Peters

2020Applied and Environmental Microbiology54 citationsDOIOpen Access PDF

Abstract

Biofuels produced by microbial fermentation of plant feedstocks provide renewable and sustainable energy sources that have the potential to mitigate climate change and improve energy security. Engineered strains of the bacterium Z. mobilis can convert sugars extracted from plant feedstocks into next-generation biofuels like isobutanol; however, conversion by these strains remains inefficient due to key gaps in our knowledge about genes involved in metabolism and stress responses such as alcohol tolerance. Here, we develop CRISPRi as a tool to explore gene function in Z. mobilis . We characterize genes that are essential for growth, required to ferment sugar to ethanol, and involved in resistance to isobutanol. Our Z. mobilis CRISPRi system makes it straightforward to define gene function and can be applied to improve strain engineering and increase biofuel yields.

Topics & Concepts

Zymomonas mobilisIsobutanolBiofuelMetabolic engineeringBiotechnologyBiochemical engineeringSynthetic biologyFunction (biology)BiologyGeneComputational biologyChemistryBiochemistryEthanol fuelEthanolGeneticsEngineeringCRISPR and Genetic EngineeringMicrobial Metabolic Engineering and BioproductionBiofuel production and bioconversion
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