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Engineering yeast for the production of breviscapine by genomic analysis and synthetic biology approaches

Author

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  • Xiaonan Liu

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Jian Cheng

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

  • Guanghui Zhang

    (Yunnan Agricultural University)

  • Wentao Ding

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

  • Lijin Duan

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

  • Jing Yang

    (Yunnan Agricultural University
    National & Local Joint Engineering Research Center on Germplasm Utilization & Innovation of Chinese Medicinal Materials in Southwestern China)

  • Ling Kui

    (University of Chinese Academy of Sciences
    State Key Laboratory of Genetic Resources and Evolution, Kunming Institute of Zoology, Chinese Academy of Sciences)

  • Xiaozhi Cheng

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

  • Jiangxing Ruan

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

  • Wei Fan

    (Yunnan Agricultural University)

  • Junwen Chen

    (Yunnan Agricultural University)

  • Guangqiang Long

    (Yunnan Agricultural University)

  • Yan Zhao

    (Yunnan Agricultural University)

  • Jing Cai

    (University of Macau)

  • Wen Wang

    (State Key Laboratory of Genetic Resources and Evolution, Kunming Institute of Zoology, Chinese Academy of Sciences
    Northwestern Polytechnical University)

  • Yanhe Ma

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

  • Yang Dong

    (Yunnan Agricultural University
    National & Local Joint Engineering Research Center on Germplasm Utilization & Innovation of Chinese Medicinal Materials in Southwestern China)

  • Shengchao Yang

    (Yunnan Agricultural University
    National & Local Joint Engineering Research Center on Germplasm Utilization & Innovation of Chinese Medicinal Materials in Southwestern China)

  • Huifeng Jiang

    (Key Laboratory of Systems Microbial Biotechnology, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences)

Abstract

The flavonoid extract from Erigeron breviscapus, breviscapine, has increasingly been used to treat cardio- and cerebrovascular diseases in China for more than 30 years, and plant supply of E. breviscapus is becoming insufficient to satisfy the growing market demand. Here we report an alternative strategy for the supply of breviscapine by building a yeast cell factory using synthetic biology. We identify two key enzymes in the biosynthetic pathway (flavonoid-7-O-glucuronosyltransferase and flavone-6-hydroxylase) from E. breviscapus genome and engineer yeast to produce breviscapine from glucose. After metabolic engineering and optimization of fed-batch fermentation, scutellarin and apigenin-7-O-glucuronide, two major active ingredients of breviscapine, reach to 108 and 185 mg l–1, respectively. Our study not only introduces an alternative source of these valuable compounds, but also provides an example of integrating genomics and synthetic biology knowledge for metabolic engineering of natural compounds.

Suggested Citation

  • Xiaonan Liu & Jian Cheng & Guanghui Zhang & Wentao Ding & Lijin Duan & Jing Yang & Ling Kui & Xiaozhi Cheng & Jiangxing Ruan & Wei Fan & Junwen Chen & Guangqiang Long & Yan Zhao & Jing Cai & Wen Wang , 2018. "Engineering yeast for the production of breviscapine by genomic analysis and synthetic biology approaches," Nature Communications, Nature, vol. 9(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-02883-z
    DOI: 10.1038/s41467-018-02883-z
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    Cited by:

    1. Sierra M. Brooks & Celeste Marsan & Kevin B. Reed & Shuo-Fu Yuan & Dustin-Dat Nguyen & Adit Trivedi & Gokce Altin-Yavuzarslan & Nathan Ballinger & Alshakim Nelson & Hal S. Alper, 2023. "A tripartite microbial co-culture system for de novo biosynthesis of diverse plant phenylpropanoids," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    2. Shan Yang & Ruibing Chen & Xuan Cao & Guodong Wang & Yongjin J. Zhou, 2024. "De novo biosynthesis of the hops bioactive flavonoid xanthohumol in yeast," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    3. Hao-Tian Wang & Zi-Long Wang & Kuan Chen & Ming-Ju Yao & Meng Zhang & Rong-Shen Wang & Jia-He Zhang & Hans Ågren & Fu-Dong Li & Junhao Li & Xue Qiao & Min Ye, 2023. "Insights into the missing apiosylation step in flavonoid apiosides biosynthesis of Leguminosae plants," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    4. Wenna Li & Zhao Zhou & Xianglai Li & Lin Ma & Qingyuan Guan & Guojun Zheng & Hao Liang & Yajun Yan & Xiaolin Shen & Jia Wang & Xinxiao Sun & Qipeng Yuan, 2022. "Biosynthesis of plant hemostatic dencichine in Escherichia coli," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    5. Hongjiao Zhang & Zixin Li & Shuang Zhou & Shu-Ming Li & Huomiao Ran & Zili Song & Tao Yu & Wen-Bing Yin, 2022. "A fungal NRPS-PKS enzyme catalyses the formation of the flavonoid naringenin," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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