Populus salicinoids: A thriving subfield in the -omics era.

IF 3.5 2区农林科学 Q1 FORESTRY

Tree physiology Pub Date : 2025-05-29 DOI:10.1093/treephys/tpaf065

Noah J Kaufman, Jamie You, Brian G Fox, Shawn D Mansfield

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Abstract

Members of the salicaceous genus Populus are primarily used by plant biologists as a model system for understanding the genetic underpinnings of woody plant growth and development. Beyond their importance to those conducting developmental research, Populus spp. are key members of ecosystems in the Northern Hemisphere and show promise as a vital renewable source of biomass for sustainable biofuel production. This genus also produces a class of signature herbivore-deterring and medicinally significant phenolic glycosides, commonly referred to as salicinoids. Although salicinoids in Populus are primarily associated with defense against biotic disturbances, they have also been implicated in structuring the chemotaxonomy of Populus and Salicaceae, shaping endophytic microbiomes, directing abiotic stress responses, and participating in primary metabolism. Despite advancements in understanding these interactions through functional genomics and biotechnological techniques such as CRISPR/Cas9, much about their function and biosynthesis still remains obfuscated. Here, we summarize a global view of progress made in Populus salicinoid research, focusing particularly on studies conducted through a biotechnological lens, to elucidate the distribution, ecological significance, and biosynthesis of these compounds.

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杨杨：经济学时代蓬勃发展的分支领域。

杨树属的成员主要被植物生物学家用作理解木本植物生长和发育的遗传基础的模型系统。除了对开展发展研究的重要性外，杨树是北半球生态系统的重要成员，有望成为可持续生物燃料生产的重要可再生生物质来源。该属还生产一类标志性的食草动物威慑和药用显著的酚类苷，通常被称为水杨苷。虽然杨树中的水杨苷主要与抵御生物干扰有关，但它们也与杨树和水杨科植物的化学分类结构、内生微生物群的形成、非生物应激反应的指导以及参与初级代谢有关。尽管通过功能基因组学和生物技术（如CRISPR/Cas9）在理解这些相互作用方面取得了进展，但它们的功能和生物合成仍然很模糊。在此，我们总结了杨杨类水杨酸研究的全球进展，特别是通过生物技术的角度进行的研究，以阐明这些化合物的分布、生态意义和生物合成。

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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来源期刊

Tree physiology 农林科学-林学

CiteScore

7.10

自引率

7.50%

发文量

133

审稿时长

1 months

期刊介绍： Tree Physiology promotes research in a framework of hierarchically organized systems, measuring insight by the ability to link adjacent layers: thus, investigated tree physiology phenomenon should seek mechanistic explanation in finer-scale phenomena as well as seek significance in larger scale phenomena (Passioura 1979). A phenomenon not linked downscale is merely descriptive; an observation not linked upscale, might be trivial. Physiologists often refer qualitatively to processes at finer or coarser scale than the scale of their observation, and studies formally directed at three, or even two adjacent scales are rare. To emphasize the importance of relating mechanisms to coarser scale function, Tree Physiology will highlight papers doing so particularly well as feature papers.