提巴因
罂粟
化学
生物合成
生物化学
罂粟
酶
可待因
生物碱
吗啡
生物
立体化学
爸爸
药理学
生态学
植物
作者
Chen Xue,Jillian M. Hagel,Li‐Mei Chang,Joseph E. Tucker,Stacey A. Shiigi,Yuora Yelpaala,Hsiang-Yun Chen,Rodrigo Estrada,Jeffrey Colbeck,Maria Enquist-Newman,Ana B. Ibáñez,Guillaume Cottarel,Genevieve M. Vidanes,Peter J. Facchini
标识
DOI:10.1038/s41589-018-0059-7
摘要
The ultimate step in the formation of thebaine, a pentacyclic opiate alkaloid readily converted to the narcotic analgesics codeine and morphine in the opium poppy, has long been presumed to be a spontaneous reaction. We have detected and purified a novel enzyme from opium poppy latex that is capable of the efficient formation of thebaine from (7S)-salutaridinol 7-O-acetate at the expense of labile hydroxylated byproducts, which are preferentially produced by spontaneous allylic elimination. Remarkably, thebaine synthase (THS), a member of the pathogenesis-related 10 protein (PR10) superfamily, is encoded within a novel gene cluster in the opium poppy genome that also includes genes encoding the four biosynthetic enzymes immediately upstream. THS is a missing component that is crucial to the development of fermentation-based opiate production and dramatically improves thebaine yield in engineered yeast. Although the conversion of (7S)-salutaridinol 7-O-acetate to thebaine can occur spontaneously, the identification of a thebaine synthase enzyme that catalyzes the reaction indicates how nature avoids the formation of labile hydroxylated byproducts.
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