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Constructing High-Yielding <i>Serratia marcescens</i> for (−)-α-Bisabolol Production Based on the Exogenous Haloarchaeal MVA Pathway and Endogenous Molecular Chaperones

Yao Lu, Di Liu, Long Wang, Yan Ma, Tai‐Ping Fan, Huaxiang Deng, Yujie Cai

2024Journal of Agricultural and Food Chemistry20 citationsDOI

Abstract

(−)-α-Bisabolol exhibits analgesic, anti-inflammatory, and skin-soothing properties and is widely applied in the cosmetic and pharmaceutical industries. The use of plant essential oil distillation or chemical synthesis to produce (−)-α-bisabolol is both inefficient and unsustainable. Currently, the microbial production of (−)-α-bisabolol mainly relies on Escherichia coli and Saccharomyces cerevisiae as chassis strains; however, high concentrations of (−)-α-bisabolol have certain toxicity to the strain. This study uses synthetic biology and metabolic engineering strategies to redesign a solvent-tolerant Serratia marcescens for the efficient production of (−)-α-bisabolol. By introducing the Haloarchaea-type mevalonate (MVA) pathway and the (−)-α-bisabolol biosynthesis pathway, we successfully constructed a strain capable of producing (−)-α-bisabolol. The coexpression of the chaperone protein DnaK/J significantly enhanced the soluble expression of the (−)-α-bisabolol synthase, resulting in a 10% increase in (−)-α-bisabolol titer. Furthermore, knockout of the PhoA gene, which reduced the formation of the byproduct farnesol (FOH), further increased the (−)-α-bisabolol titer to 3.21 g/L. In a 5 L bioreactor, S. marcescens achieved a final (−)-α-bisabolol titer of 30.2 g/L, representing the highest titer reported to date. This research provides guidance for the production of (−)-α-bisabolol in nonmodel microorganisms without the requirement for induction.

Topics & Concepts

Serratia marcescensEndogenyChemistrySteam distillationBiotechnologyBiochemical engineeringEssential oilBiologyBiochemistryFood scienceEscherichia coliGeneEngineeringPlant biochemistry and biosynthesisMicrobial Metabolic Engineering and BioproductionBiochemical and biochemical processes