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Engineering Corynebacterium glutamicum for de novo production of 2-phenylethanol from lignocellulosic biomass hydrolysate

Nianqing Zhu, Wenjing Xia, Guanglu Wang, Yuhe Song, Xinxing Gao, Jilei Liang, Yan Wang

2023Biotechnology for Biofuels and Bioproducts25 citationsDOIOpen Access PDF

Abstract

Abstract Background 2-Phenylethanol is a specific aromatic alcohol with a rose-like smell, which has been widely used in the cosmetic and food industries. At present, 2-phenylethanol is mainly produced by chemical synthesis. The preference of consumers for “natural” products and the demand for environmental-friendly processes have promoted biotechnological processes for 2-phenylethanol production. Yet, high 2-phenylethanol cytotoxicity remains an issue during the bioproduction process. Results Corynebacterium glutamicum with inherent tolerance to aromatic compounds was modified for the production of 2-phenylethanol from glucose and xylose. The sensitivity of C. glutamicum to 2-phenylethanol toxicity revealed that this host was more tolerant than Escherichia coli . Introduction of a heterologous Ehrlich pathway into the evolved phenylalanine-producing C. glutamicum CALE1 achieved 2-phenylethanol production, while combined expression of the aro10 . Encoding 2-ketoisovalerate decarboxylase originating from Saccharomyces cerevisiae and the yahK encoding alcohol dehydrogenase originating from E. coli was shown to be the most efficient. Furthermore, overexpression of key genes ( aroG fbr , pheA fbr , aroA , ppsA and tkt ) involved in the phenylpyruvate pathway increased 2-phenylethanol titer to 3.23 g/L with a yield of 0.05 g/g glucose. After introducing a xylose assimilation pathway from Xanthomonas campestris and a xylose transporter from E. coli , 3.55 g/L 2-phenylethanol was produced by the engineered strain CGPE15 with a yield of 0.06 g/g xylose, which was 10% higher than that with glucose. This engineered strain CGPE15 also accumulated 3.28 g/L 2-phenylethanol from stalk hydrolysate. Conclusions In this study, we established and validated an efficient C. glutamicum strain for the de novo production of 2-phenylethanol from corn stalk hydrolysate. This work supplied a promising route for commodity 2-phenylethanol bioproduction from nonfood lignocellulosic feedstock. Graphical Abstract

Topics & Concepts

Corynebacterium glutamicumXyloseBiochemistryHydrolysateEscherichia coliChemistryMetabolic engineeringAlcohol dehydrogenasePyruvate decarboxylaseLignocellulosic biomassFermentationFood scienceBiologyEnzymeHydrolysisGeneMicrobial Metabolic Engineering and BioproductionBiofuel production and bioconversionBiochemical and biochemical processes
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