Enzyme promiscuity-driven co-production of flavonoid 7-O-glycosides in engineered Saccharomyces cerevisiae
Xinjia Tan, Shasha Zuo, Fanglin Hu, Zhiqiang Xiao, Yongtong Wang, Siqi Zhang, Qiyuan Lu, Yifei Zhao, Jiaxu Chen, Liusha Fan, Juan Liu, Yang Shan

TL;DR
Scientists engineered yeast to produce flavonoid 7-O-glycosides using enzyme flexibility, offering a sustainable alternative to plant extraction.
Contribution
A novel strategy to utilize enzyme promiscuity in yeast for co-producing flavonoid mixtures through metabolic context engineering.
Findings
Optimized NAR biosynthesis achieved 318.08 mg/L yield.
Co-production of ISOEIN and NAR 7-O-glycosides was efficiently realized.
A sustainable platform for flavonoid mixtures was established for functional food applications.
Abstract
Flavonoid 7-O-glycosides are a key class of bioactive flavonoid derivatives with broad application prospects in functional foods and nutraceuticals. Currently, their production is mainly dependent on unsustainable plant extraction or inefficient chemical synthesis. Microbial synthesis provides a promising green alternative for producing such functional ingredients; however, enzyme promiscuity hinders their ability to form specific products exclusively. To address this issue, we propose a strategy to harness enzyme promiscuity by engineering the metabolic context. This approach purposefully utilizes enzyme's catalytic flexibility to co-produce flavonoid 7-O-glycoside mixtures. We first optimized the (2S)-naringenin (NAR) biosynthesis module by overexpressing key enzymes, relieving feedback inhibition, and enhancing acetyl-CoA supply, achieving a yield of 318.08 mg/L NAR. Subsequently, by…
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Taxonomy
TopicsPlant Gene Expression Analysis · Bioactive natural compounds · Enzyme Structure and Function
