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Identification of a novel multifunctional oxidosqualene cyclase from Zea mays sheds light on the biosynthetic pathway of three pentacyclic triterpenoids

Zhenjun Fan, Yan Wang, Chengshuai Yang, Zhihua Zhou, Pingping Wang, Xing Yan

2022Synthetic and Systems Biotechnology14 citationsDOIOpen Access PDF

Abstract

To functionally characterize the candidate OSC, we constructed a yeast strain that produced high levels of 2,3-oxidosqualene. When ZmOSC1 was expressed in this strain, three compounds were detected and identified as hop-17(21)-en-3-ol, hopenol B and simiarenol, respectively. For their biosynthesis, we proposed a potential cyclization mechanism catalyzed by ZmOSC1 via the generation of a dammarenyl cation, followed by sequential cationic ring expansion, cyclization, cationic migration and further proton elimination. This study discovered and characterized an OSC from maize for the first time, and laid a foundation to produce three bioactive pentacyclic triterpenes, hop-17(21)-en-3-ol, hopenol B and simiarenol, using synthetic biology approaches.

Topics & Concepts

TerpeneBiosynthesisCyclaseTerpenoidZea maysChemistryStereochemistryEnzymeBiochemistryBiologyAgronomyPlant biochemistry and biosynthesisLipid metabolism and biosynthesisResearch in Cotton Cultivation
Identification of a novel multifunctional oxidosqualene cyclase from Zea mays sheds light on the biosynthetic pathway of three pentacyclic triterpenoids | Litcius