H2O2 介导了油菜素内酯和脱落酸在番茄应对热和氧化应激反应中的交流。

H2O2 mediates the crosstalk of brassinosteroid and abscisic acid in tomato responses to heat and oxidative stresses.

机构信息

Department of Horticulture, Zijingang Campus, Zhejiang University, Yuhangtang Road 866, Hangzhou, 310058, PR China.

Department of Horticulture, Zijingang Campus, Zhejiang University, Yuhangtang Road 866, Hangzhou, 310058, PR China

出版信息

J Exp Bot. 2014 Aug;65(15):4371-83. doi: 10.1093/jxb/eru217. Epub 2014 Jun 4.

DOI:10.1093/jxb/eru217

PMID:24899077

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4112640/

Abstract

The production of H2O2 is critical for brassinosteroid (BR)- and abscisic acid (ABA)-induced stress tolerance in plants. In this study, the relationship between BR and ABA in the induction of H2O2 production and their roles in response to heat and paraquat (PQ) oxidative stresses were studied in tomato. Both BR and ABA induced increases in RBOH1 gene expression, NADPH oxidase activity, apoplastic H2O2 accumulation, and heat and PQ stress tolerance in wild-type plants. BR could only induced transient increases in these responses in the ABA biosynthetic mutant notabilis (not), whereas ABA induced strong and prolonged increases in these responses in the BR biosynthetic mutant d (^im) compared with wild-type plants. ABA levels were reduced in the BR biosynthetic mutant but could be elevated by exogenous BR. Silencing of RBOH1 compromised BR-induced apoplastic H2O2 production, ABA accumulation, and PQ stress responses; however, ABA-induced PQ stress responses were largely unchanged in the RBOH1-silenced plants. BR induces stress tolerance involving a positive feedback mechanism in which BR induces a rapid and transient H2O2 production by NADPH oxidase. The process in turn triggers increased ABA biosynthesis, leading to further increases in H2O2 production and prolonged stress tolerance. ABA induces H2O2 production in both the apoplastic and chloroplastic compartments.

摘要

H2O2 的产生对于植物中油菜素内酯（BR）和脱落酸（ABA）诱导的应激耐受性至关重要。在本研究中，研究了番茄中 BR 和 ABA 在诱导 H2O2 产生中的关系及其在应对热和百草枯（PQ）氧化应激中的作用。BR 和 ABA 均诱导野生型植物中 RBOH1 基因表达、NADPH 氧化酶活性、质外体 H2O2 积累以及热和 PQ 应激耐受性的增加。BR 只能在 ABA 生物合成突变体 notabilis（not）中诱导这些反应的短暂增加，而 ABA 在 BR 生物合成突变体 d（^im）中诱导这些反应的强烈和持久增加与野生型植物相比。BR 生物合成突变体中的 ABA 水平降低，但可以通过外源 BR 升高。RBOH1 的沉默削弱了 BR 诱导的质外体 H2O2 产生、ABA 积累和 PQ 应激反应；然而，在 RBOH1 沉默的植物中，ABA 诱导的 PQ 应激反应基本不变。BR 通过 NADPH 氧化酶诱导快速和短暂的 H2O2 产生，从而诱导应激耐受性，涉及正反馈机制。该过程反过来触发 ABA 生物合成的增加，导致 H2O2 产生的进一步增加和应激耐受性的延长。ABA 在质外体和叶绿体两个部分诱导 H2O2 的产生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e8c1/4112640/1dd50b5aa128/exbotj_eru217_f0001.jpg

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Role of H2O2 dynamics in brassinosteroid-induced stomatal closure and opening in Solanum lycopersicum.过氧化氢动力学在油菜素内酯诱导番茄气孔关闭和开放中的作用

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H2O2 介导了油菜素内酯和脱落酸在番茄应对热和氧化应激反应中的交流。

H2O2 mediates the crosstalk of brassinosteroid and abscisic acid in tomato responses to heat and oxidative stresses.

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