Title: Discovery of a Unique Flavonoid Biosynthesis Mechanism in Fungi by Genome Mining.
Authors: Zhang, Wei; Zhang, Xuan; Feng, Dandan; Liang, Yajing; Wu, Zhenying; Du, Siyu; Zhou, Yu; Geng, Ce; Men, Ping; Fu, Chunxiang; Huang, Xuenian; Lu, Xuefeng
Abstract: Flavonoids are important plant natural products with variable structures and bioactivities. All known plant flavonoids are generated under the catalysis of a type III polyketide synthase (PKS) followed by a chalcone isomerase (CHI) and a flavone synthase (FNS). In this study, the biosynthetic gene cluster of chlorflavonin, a fungal flavonoid with acetolactate synthase inhibitory activity, was discovered using a self‐resistance‐gene‐directed strategy. A novel flavonoid biosynthetic pathway in fungi was revealed. A core nonribosomal peptide synthetase‐polyketide synthase (NRPS‐PKS) is responsible for the generation of the key precursor chalcone. Then, a new type of CHI catalyzes the conversion of a chalcone into a flavanone by a histidine‐mediated oxa‐Michael addition mechanism. Finally, the desaturation of flavanone to flavone is catalyzed by a new type of FNS, a flavin mononucleotide (FMN)‐dependent oxidoreductase.
Subjects: BIOSYNTHESIS; FLAVIN mononucleotide; ACETOLACTATE synthase; FLAVONOIDS; PEPTIDES; PLANT products; CHALCONE
Publication: Angewandte Chemie, 2023, Vol 135, Issue 12, p1
ISSN: 0044-8249
Publication type: Academic Journal
DOI: 10.1002/ange.202215529

Discovery of a Unique Flavonoid Biosynthesis Mechanism in Fungi by Genome Mining.

Zhang, Wei; Zhang, Xuan; Feng, Dandan; Liang, Yajing; Wu, Zhenying; Du, Siyu; Zhou, Yu; Geng, Ce; Men, Ping; Fu, Chunxiang; Huang, Xuenian; Lu, Xuefeng