Identification of the cytochrome P450s responsible for the biosynthesis of two types of aporphine alkaloids and their de novo biosynthesis in yeast

Qishuang Li; Xiang Jiao; Xinyi Li; Wenlong Shi; Ying Ma; Xiangmei Tan; Jingyi Gan; Jimei Liu; Jian Yang; Jian Wang; Baolong Jin; Tong Chen; Ping Su; Yujun Zhao; Yifeng Zhang; Jinfu Tang; Guanghong Cui; Yun Chen; Juan Guo; Luqi Huang

doi:10.1002/jipb.13724

Journal of Integrative Plant Biology ›› 2024, Vol. 66 ›› Issue (8) : 1703 -1717. DOI: 10.1002/jipb.13724

Research Article

Identification of the cytochrome P450s responsible for the biosynthesis of two types of aporphine alkaloids and their de novo biosynthesis in yeast

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Abstract

Aporphine alkaloids have diverse pharmacological activities; however, our understanding of their biosynthesis is relatively limited. Previous studies have classified aporphine alkaloids into two categories based on the configuration and number of substituents of the D-ring and have proposed preliminary biosynthetic pathways for each category. In this study, we identified two specific cytochrome P450 enzymes (CYP80G6 and CYP80Q5) with distinct activities toward (S)-configured and (R)-configured substrates from the herbaceous perennial vine Stephania tetrandra, shedding light on the biosynthetic mechanisms and stereochemical features of these two aporphine alkaloid categories. Additionally, we characterized two CYP719C enzymes (CYP719C3 and CYP719C4) that catalyzed the formation of the methylenedioxy bridge, an essential pharmacophoric group, on the A- and D-rings, respectively, of aporphine alkaloids. Leveraging the functional characterization of these crucial cytochrome P450 enzymes, we reconstructed the biosynthetic pathways for the two types of aporphine alkaloids in budding yeast (Saccharomyces cerevisiae) for the de novo production of compounds such as (R)-glaziovine, (S)-glaziovine, and magnoflorine. This study provides key insight into the biosynthesis of aporphine alkaloids and lays a foundation for producing these valuable compounds through synthetic biology.

Keywords

aporphine alkaloids / biosynthesis / CYP719C / CYP80 / engineered yeast

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Qishuang Li, Xiang Jiao, Xinyi Li, Wenlong Shi, Ying Ma, Xiangmei Tan, Jingyi Gan, Jimei Liu, Jian Yang, Jian Wang, Baolong Jin, Tong Chen, Ping Su, Yujun Zhao, Yifeng Zhang, Jinfu Tang, Guanghong Cui, Yun Chen, Juan Guo, Luqi Huang. Identification of the cytochrome P450s responsible for the biosynthesis of two types of aporphine alkaloids and their de novo biosynthesis in yeast. Journal of Integrative Plant Biology, 2024, 66(8): 1703-1717 DOI:10.1002/jipb.13724