乙烯信号通过抑制拟南芥 CBF 和类型-A ARR 基因的表达来负调控抗冻性。

Ethylene signaling negatively regulates freezing tolerance by repressing expression of CBF and type-A ARR genes in Arabidopsis.

机构信息

State Key Laboratory of Plant Physiology and Biochemistry, College of Biological Sciences, China Agricultural University, Beijing 100193, China.

出版信息

Plant Cell. 2012 Jun;24(6):2578-95. doi: 10.1105/tpc.112.098640. Epub 2012 Jun 15.

DOI:10.1105/tpc.112.098640

PMID:22706288

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3406918/

Abstract

The phytohormone ethylene regulates multiple aspects of plant growth and development and responses to environmental stress. However, the exact role of ethylene in freezing stress remains unclear. Here, we report that ethylene negatively regulates plant responses to freezing stress in Arabidopsis thaliana. Freezing tolerance was decreased in ethylene overproducer1 and by the application of the ethylene precursor 1-aminocyclopropane-1-carboxylic acid but increased by the addition of the ethylene biosynthesis inhibitor aminoethoxyvinyl glycine or the perception antagonist Ag+. Furthermore, ethylene-insensitive mutants, including etr1-1, ein4-1, ein2-5, ein3-1, and ein3 eil1, displayed enhanced freezing tolerance. By contrast, the constitutive ethylene response mutant ctr1-1 and EIN3-overexpressing plants exhibited reduced freezing tolerance. Genetic and biochemical analyses revealed that EIN3 negatively regulates the expression of CBFs and type-A Arabidopsis response regulator5 (ARR5), ARR7, and ARR15 by binding to specific elements in their promoters. Overexpression of these ARR genes enhanced the freezing tolerance of plants. Thus, our study demonstrates that ethylene negatively regulates cold signaling at least partially through the direct transcriptional control of cold-regulated CBFs and type-A ARR genes by EIN3. Our study also provides evidence that type-A ARRs function as key nodes to integrate ethylene and cytokinin signaling in regulation of plant responses to environmental stress.

摘要

植物激素乙烯调节植物生长发育和环境胁迫响应的多个方面。然而，乙烯在冷冻胁迫中的确切作用仍不清楚。在这里，我们报告乙烯负调控拟南芥对冷冻胁迫的响应。在拟南芥中，乙烯过量产生突变体 1 和应用乙烯前体 1-氨基环丙烷-1-羧酸，但通过添加乙烯生物合成抑制剂氨基乙氧基乙烯基甘氨酸或感知拮抗剂 Ag+，提高了植物的抗冻性。此外，乙烯不敏感突变体，包括 etr1-1、ein4-1、ein2-5、ein3-1 和 ein3 eil1，表现出增强的抗冻性。相比之下，组成型乙烯反应突变体 ctr1-1 和 EIN3 过表达植物表现出降低的抗冻性。遗传和生化分析表明，EIN3 通过结合其启动子中的特定元件，负调控 CBFs 和 A 型拟南芥反应调节因子 5（ARR5）、ARR7 和 ARR15 的表达。这些 ARR 基因的过表达增强了植物的抗冻性。因此，我们的研究表明，乙烯至少部分通过 EIN3 对冷调节 CBFs 和 A 型 ARR 基因的直接转录控制来负调控冷信号。我们的研究还提供了证据表明，A 型 ARRs 作为关键节点，整合乙烯和细胞分裂素信号在植物对环境胁迫响应的调控中发挥作用。

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