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Characterization and heterologous reconstitution of Taxus biosynthetic enzymes leading to baccatin III.

Bin JiangLei GaoHaijun WangYaping SunXiaolin ZhangHan KeShengchao LiuPengchen MaQinggang LiaoYue WangHuan WangYugeng LiuRan DuTorben RoggeWei LiYi ShangKendall N HoukXingyao XiongDaoxin XieSanwen HuangXiaoguang LeiJianbin Yan
Published in: Science (New York, N.Y.) (2024)
Paclitaxel is a well known anticancer compound. Its biosynthesis involves the formation of a highly functionalized diterpenoid core skeleton (baccatin III) and the subsequent assembly of a phenylisoserinoyl side chain. Despite intensive investigation for half a century, the complete biosynthetic pathway of baccatin III remains unknown. In this work, we identified a bifunctional cytochrome P450 enzyme [taxane oxetanase 1 (TOT1)] in Taxus mairei that catalyzes an oxidative rearrangement in paclitaxel oxetane formation, which represents a previously unknown enzyme mechanism for oxetane ring formation. We created a screening strategy based on the taxusin biosynthesis pathway and uncovered the enzyme responsible for the taxane oxidation of the C9 position (T9αH1). Finally, we artificially reconstituted a biosynthetic pathway for the production of baccatin III in tobacco.
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