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Regulated redirection of central carbon flux enhances anaerobic production of bioproducts in Zymomonas mobilis

Yang Liu, Indro Neil Ghosh, Julia I. Martien, Yaoping Zhang, Daniel Amador‐Noguez, Robert Landick

2020Metabolic Engineering46 citationsDOIOpen Access PDF

Abstract

The microbial production of chemicals and fuels from plant biomass offers a sustainable alternative to fossilized carbon but requires high rates and yields of bioproduct synthesis. Z. mobilis is a promising chassis microbe due to its high glycolytic rate in anaerobic conditions that are favorable for large-scale production. However, diverting flux from its robust ethanol fermentation pathway to nonnative pathways remains a major engineering hurdle. To enable controlled, high-yield synthesis of bioproducts, we implemented a central-carbon metabolism control-valve strategy using regulated, ectopic expression of pyruvate decarboxylase (Pdc) and deletion of chromosomal pdc. Metabolomic and genetic analyses revealed that glycolytic intermediates and NADH accumulate when Pdc is depleted and that Pdc is essential for anaerobic growth of Z. mobilis. Aerobically, all flux can be redirected to a 2,3-butanediol pathway for which respiration maintains redox balance. Anaerobically, flux can be redirected to redox-balanced lactate or isobutanol pathways with ≥65% overall yield from glucose. This strategy provides a promising path for future metabolic engineering of Z. mobilis.

Topics & Concepts

Zymomonas mobilisBioproductsMetabolic engineeringBiochemistryFlux balance analysisFlux (metallurgy)ChemistryMetabolic pathwayMetabolic networkEthanol fuelBioprocessBiofuelFermentationPyruvate decarboxylaseMetabolismBiologyAlcohol dehydrogenaseBiotechnologyEthanolEnzymeOrganic chemistryPaleontologyMicrobial Metabolic Engineering and BioproductionBiofuel production and bioconversionBiochemical Acid Research Studies