Systematic Engineering of Saccharomyces cerevisiae for the De Novo Biosynthesis of Genistein and Glycosylation Derivatives
Artikel i vetenskaplig tidskrift, 2024
Isoflavones are predominantly found in legumes and play roles in plant defense and prevention of estrogen-related diseases. Genistein is an important isoflavone backbone with various biological activities. In this paper, we describe how a cell factory that can de novo synthesize genistein was constructed in Saccharomyces cerevisiae. Different combinations of isoflavone synthase, cytochrome P450 reductase, and 2-hydroxyisoflavone dehydratase were tested, followed by pathway multicopy integration, to stably de novo synthesize genistein. The catalytic activity of isoflavone synthase was enhanced by heme supply and an increased intracellular NADPH/NADP+ ratio. Redistribution of the malonyl-CoA flow and balance of metabolic fluxes were achieved by adjusting the fatty acid synthesis pathway, yielding 23.33 mg/L genistein. Finally, isoflavone glycosyltransferases were introduced into S. cerevisiae, and the optimized strain produced 15.80 mg/L of genistin or 10.03 mg/L of genistein-8-C-glucoside. This is the first de novo synthesis of genistein-8-C-glucoside in S. cerevisiae, which is advantageous for the green industrial production of isoflavone compounds.
genistein
heme
glycosylation
isoflavones
malonyl-CoA
Författare
Yongtong Wang
Hunan University
Hunan Academy of Agricultural Sciences
Hunan Agricultural Product Processing Institute
Zhiqiang Xiao
Hunan University
Hunan Agricultural Product Processing Institute
Hunan Academy of Agricultural Sciences
Siqi Zhang
Hunan Academy of Agricultural Sciences
Hunan Agricultural Product Processing Institute
Hunan University
Xinjia Tan
Hunan University
Hunan Agricultural Product Processing Institute
Hunan Academy of Agricultural Sciences
Yifei Zhao
Hunan Academy of Agricultural Sciences
Hunan University
Hunan Agricultural Product Processing Institute
Juan Liu
Hunan University
Hunan Agricultural Product Processing Institute
Hunan Academy of Agricultural Sciences
Chalmers, Life sciences, Systembiologi
Ning Jiang
Hunan Academy of Agricultural Sciences
Hunan Agricultural Product Processing Institute
Yang Shan
Hunan University
Hunan Academy of Agricultural Sciences
Hunan Agricultural Product Processing Institute
Journal of Fungi
2309608X (eISSN)
Vol. 10 3 176Ämneskategorier
Biokemi och molekylärbiologi
DOI
10.3390/jof10030176