Litcius/Paper detail

Engineering <i>Saccharomyces cerevisiae</i> Coculture Platform for the Production of Flavonoids

Yun Du, Binrui Yang, Zhiqiang Yi, Lanlan Hu, Mu Li

2020Journal of Agricultural and Food Chemistry72 citationsDOI

Abstract

Flavonoids are valuable natural products widely used in human health and nutrition applications. Engineering microbial consortia to express complex flavonoid biosynthetic pathways is a promising approach for flavonoid production. In this study, the entire flavonoid biosynthetic pathway was split into two independent pathways, each of which was contained in separate Saccharomyces cerevisiae cells. The first cell type, sNAR5, which was genetically engineered to express the naringenin biosynthetic pathway, produced 144.1 mg/L naringenin. The second cell type was genetically modified with the heterologous naringenin-to-delphinidin pathway. A coculture produced a delphinidin titer, significantly higher than that produced in a monoculture of strain sDPD2, harboring the entire pathway. Furthermore, we successfully employed this coculture platform for the production of 3 flavonols and 2 anthocyanidins in flask-scale culture. This coculture platform paves the way for the development of an economical and efficient process for microbial flavonoid production.

Topics & Concepts

NaringeninFlavonoidSaccharomyces cerevisiaeBiochemistryYeastFlavonolsChemistryFlavonoid biosynthesisBiologyFood scienceTranscriptomeGeneAntioxidantGene expressionPlant Gene Expression AnalysisPlant biochemistry and biosynthesisMicrobial Metabolic Engineering and Bioproduction