一种类纤维素合酶蛋白调控生物碱的生物合成。

A cellulose synthase-like protein governs the biosynthesis of alkaloids.

作者信息

Jozwiak Adam, Panda Sayantan, Akiyama Ryota, Yoneda Ayano, Umemoto Naoyuki, Saito Kazuki, Yasumoto Shuhei, Muranaka Toshiya, Gharat Sachin A, Kazachkova Yana, Dong Yonghui, Arava Shlomy, Goliand Inna, Nevo Reinat, Rogachev Ilana, Meir Sagit, Mizutani Masaharu, Aharoni Asaph

机构信息

Department of Plant and Environmental Sciences, Weizmann Institute of Science, Rehovot, Israel.

Department of Botany and Plant Sciences, University of California, Riverside, CA, USA.

出版信息

Science. 2024 Dec 20;386(6728):eadq5721. doi: 10.1126/science.adq5721.

DOI:10.1126/science.adq5721

PMID:39700293

Abstract

Decades of research on the infamous antinutritional steroidal glycoalkaloids (SGAs) in Solanaceae plants have provided deep insights into their metabolism and roles. However, engineering SGAs in heterologous hosts has remained a challenge. We discovered that a protein evolved from the machinery involved in building plant cell walls is the crucial link in the biosynthesis of SGAs. We show that cellulose synthase-like M [GLYCOALKALOID METABOLISM15 (GAME15)] functions both as a cholesterol glucuronosyltransferase and a scaffold protein. Silencing depletes SGAs, which makes plants more vulnerable to pests. Our findings illuminate plant evolutionary adaptations that balance chemical defense and self-toxicity and open possibilities for producing steroidal compounds in heterologous systems for food, cosmetics, and pharmaceuticals.

摘要

几十年来，对茄科植物中臭名昭著的抗营养甾体糖苷生物碱（SGA）的研究，让我们对其代谢过程和作用有了深入了解。然而，在异源宿主中改造SGA仍然是一项挑战。我们发现，一种由参与构建植物细胞壁的机制进化而来的蛋白质，是SGA生物合成中的关键环节。我们证明，类纤维素合酶M [糖苷生物碱代谢15（GAME15）] 既作为胆固醇葡萄糖醛酸基转移酶，又作为支架蛋白发挥作用。使其沉默会耗尽SGA，从而使植物更容易受到害虫侵害。我们的研究结果揭示了植物在平衡化学防御和自身毒性方面的进化适应性，并为在异源系统中生产用于食品、化妆品和药品的甾体化合物开辟了可能性。