一氧化氮调节对 ABA 的敏感性。

Nitric oxide modulates sensitivity to ABA.

机构信息

Instituto de Biología Molecular y Celular de Plantas (CSIC-UPV), Valencia, Spain.

出版信息

Plant Signal Behav. 2010 Mar;5(3):314-6. doi: 10.4161/psb.5.3.11235. Epub 2010 Mar 15.

DOI:10.4161/psb.5.3.11235

PMID:20168082

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2881288/

Abstract

Nitric oxide (NO) is a gas with crucial signaling functions in plant defense and development. As demonstrated by generating a triple nia1nia2noa1-2 mutant with extremely low levels of NO (February 2010 issue of Plant Physiology), NO is synthesized in plants through mainly two different pathways involving nitrate reductase (NR/NIA) and NO Associated 1 (AtNOA1) proteins. Depletion of basal NO levels leads to a priming of ABA-triggered responses that causes hypersensitivity to this hormone and results in enhanced seed dormancy and decreased seed germination and seedling establishment in the triple mutant. NO produced under non-stressed conditions represses inhibition of seed developmental transitions by ABA. Moreover, NO plays a positive role in post-germinative vegetative development and also exerts a critical control of ABA-related functions on stomata closure. The triple nia1nia2noa1-2 mutant is hypersensitive to ABA in stomatal closure thus resulting in a extreme phenotype of resistance to drought. In the light of the recent discovery of PYR/PYL/RCAR as a family of potential ABA receptors, regulation of ABA sensitivity by NO may be exerted either directly on ABA receptors or on downstream signaling components; both two aspects that deserve our present and future attention.

摘要

一氧化氮（NO）是一种在植物防御和发育中具有关键信号功能的气体。通过生成 NO 水平极低的三重 nia1nia2noa1-2 突变体（2010 年 2 月的《植物生理学》）证明，植物通过主要涉及硝酸还原酶（NR/NIA）和 NO 相关蛋白 1（AtNOA1）的两种不同途径合成 NO。基础 NO 水平的耗竭导致 ABA 触发反应的引发，从而导致对这种激素的超敏反应，并导致三重突变体中种子休眠增强、种子萌发和幼苗建立减少。非胁迫条件下产生的 NO 抑制 ABA 抑制种子发育转变。此外，NO 在萌发后的营养生长发育中发挥积极作用，并对气孔关闭的 ABA 相关功能进行关键控制。三重 nia1nia2noa1-2 突变体在气孔关闭中对 ABA 敏感，因此导致对干旱的极端抗性表型。鉴于最近发现 PYR/PYL/RCAR 作为潜在 ABA 受体家族，NO 对 ABA 敏感性的调节可能直接作用于 ABA 受体或下游信号成分；这两个方面都值得我们当前和未来的关注。

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