DEFENSIVE RESIN BIOSYNTHESIS IN CONIFERS.

Annual review of plant physiology and plant molecular biology Pub Date : 2003-11-28 DOI:10.1146/ANNUREV.ARPLANT.52.1.689

Susan C. Trapp, R. Croteau

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引用次数: 391

Abstract

Tree killing bark beetles and their vectored fungal pathogens are the most destructive agents of conifer forests worldwide. Conifers defend against attack by the constitutive and inducible production of oleoresin, a complex mixture of mono-, sesqui-, and diterpenoids that accumulates at the wound site to kill invaders and both flush and seal the injury. Although toxic to the bark beetle and fungal pathogen, oleoresin also plays a central role in the chemical ecology of these boring insects, from host selection to pheromone signaling and tritrophic level interactions. The biochemistry of oleoresin terpenoids is reviewed, and the regulation of production of this unusual plant secretion is described in the context of bark beetle infestation dynamics with respect to the function of the turpentine and rosin components. Recent advances in the molecular genetics of terpenoid biosynthesis provide evidence for the evolutionary origins of oleoresin and permit consideration of genetic engineering strategies to improve conifer defenses as a component of modern forest biotechnology.

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针叶树的防御性树脂生物合成。

树皮甲虫及其病媒真菌病原体是全球针叶林最具破坏性的病原体。针叶树通过组成性和诱导性的油树脂来防御攻击，油树脂是一种复杂的单萜类、半萜类和二萜类化合物的混合物，它们在伤口部位积聚，杀死入侵者，并清除和密封伤口。尽管对树皮甲虫和真菌病原体有毒，但从寄主选择到信息素信号传导和三营养水平的相互作用，油树脂在这些无聊昆虫的化学生态中也起着核心作用。本文综述了油松脂萜类化合物的生物化学研究进展，并从松节油和松香成分的功能角度描述了这种不寻常的植物分泌物的产生调控。萜类生物合成分子遗传学的最新进展为油树脂的进化起源提供了证据，并允许考虑基因工程策略来改善针叶树防御，作为现代森林生物技术的一个组成部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Annual review of plant physiology and plant molecular biology

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