独脚金内酯通过释放 WRKY41 介导的对 CBF/DREB1 表达的抑制作用来促进植物的抗冻性。

Strigolactones promote plant freezing tolerance by releasing the WRKY41-mediated inhibition of CBF/DREB1 expression.

机构信息

State Key Laboratory of Plant Environmental Resilience, College of Biological Sciences, China Agricultural University, Beijing, China.

College of Plant Science and Technology, Beijing University of Agriculture, Beijing, China.

出版信息

EMBO J. 2023 Oct 4;42(19):e112999. doi: 10.15252/embj.2022112999. Epub 2023 Aug 25.

DOI:10.15252/embj.2022112999

PMID:37622245

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10548171/

Abstract

Cold stress is a major abiotic stress that adversely affects plant growth and crop productivity. The C-REPEAT BINDING FACTOR/DRE BINDING FACTOR 1 (CBF/DREB1) transcriptional regulatory cascade plays a key role in regulating cold acclimation and freezing tolerance in Arabidopsis (Arabidopsis thaliana). Here, we show that max (more axillary growth) mutants deficient in strigolactone biosynthesis and signaling display hypersensitivity to freezing stress. Exogenous application of GR24 , a strigolactone analog, enhances freezing tolerance in wild-type plants and strigolactone-deficient mutants and promotes the cold-induced expression of CBF genes. Biochemical analysis showed that the transcription factor WRKY41 serves as a substrate for the F-box E3 ligase MAX2. WRKY41 directly binds to the W-box in the promoters of CBF genes and represses their expression, negatively regulating cold acclimation and freezing tolerance. MAX2 ubiquitinates WRKY41, thus marking it for cold-induced degradation and thereby alleviating the repression of CBF expression. In addition, SL-mediated degradation of SMXLs also contributes to enhanced plant freezing tolerance by promoting anthocyanin biosynthesis. Taken together, our study reveals the molecular mechanism underlying strigolactones promote the cold stress response in Arabidopsis.

摘要

冷胁迫是一种主要的非生物胁迫，会对植物生长和作物生产力产生不利影响。C-重复结合因子/干旱应答元件结合因子 1（CBF/DREB1）转录调控级联在调控拟南芥（Arabidopsis thaliana）的冷驯化和抗冻性方面起着关键作用。在这里，我们表明，在缺乏独脚金内酯生物合成和信号的 max（更多腋生生长）突变体中，对冻胁迫表现出超敏反应。独脚金内酯类似物 GR24 的外源应用增强了野生型植物和独脚金内酯缺陷突变体的抗冻性，并促进了 CBF 基因的冷诱导表达。生化分析表明，转录因子 WRKY41 是 F-box E3 连接酶 MAX2 的底物。WRKY41 直接结合 CBF 基因启动子中的 W-box，抑制其表达，负调控冷驯化和抗冻性。MAX2 泛素化 WRKY41，从而将其标记为冷诱导降解，从而减轻 CBF 表达的抑制。此外，SL 介导的 SMXLs 的降解也通过促进花青素生物合成来提高植物的抗冻性。总之，我们的研究揭示了独脚金内酯促进拟南芥冷胁迫反应的分子机制。

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