信号交响乐的指挥者:植物的代谢和激素反应集中在TOR和EIN2上。

Faculty reviews Pub Date : 2022-05-10 eCollection Date: 2022-01-01 DOI:10.12703/r-01-000008
Jacob O Brunkard, Caren Chang, Bruce J Mayer, Christian Meyer, Jen Sheen
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引用次数: 0

摘要

发育是由几十个信号协调的,这些信号在重叠的途径中起作用,协调多细胞生长。了解信号通路如何在分子水平上相交和分化,对于预测生物体如何对动态环境条件作出反应至关重要。在植物中,两个拮抗信号中枢被严格要求来感知和响应许多营养物质和激素:雷帕霉素靶蛋白(TOR)和乙烯不敏感2 (EIN2)。在这篇具有里程碑意义的报告中,Fu等人发现TOR和EIN2直接相互作用来编排生长,并在激素和代谢信号网络的交叉点定义了一种意想不到的分子机制1。
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ConducTORs of a Signaling Symphony: Metabolic and Hormone Responses Converge on TOR and EIN2 in plants.

Development is coordinated by dozens of signals that act in overlapping pathways to orchestrate multicellular growth. Understanding how signaling pathways intersect and diverge at a molecular level is critical to predicting how organisms will react to dynamic environmental conditions. In plants, two antagonistic signaling hubs are strictly required to sense and respond to many nutrients and hormones: TARGET OF RAPAMYCIN (TOR) and ETHYLENE INSENSITIVE 2 (EIN2). In this Landmark report, Fu et al. discover that TOR and EIN2 directly interact to choreograph growth and define an unexpected molecular mechanism at the intersection of hormonal and metabolic signaling networks1.

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