小泛素样修饰（SUMO）化修饰使转录因子DREB2A稳定，从而提高植物耐热性。

SUMOylation Stabilizes the Transcription Factor DREB2A to Improve Plant Thermotolerance.

作者信息

Wang Feige, Liu Yiyang, Shi Yaqiao, Han Danlu, Wu Yuanyuan, Ye Weixian, Yang Huanling, Li Guowei, Cui Feng, Wan Shubo, Lai Jianbin, Yang Chengwei

机构信息

Guangdong Provincial Key Laboratory of Biotechnology for Plant Development, School of Life Science, South China Normal University, 510631 Guangzhou, China.

Biotechnology Research Center, Shandong Academy of Agricultural Sciences, and Shandong Provincial Key Laboratory of Crop Genetic Improvement, Ecology and Physiology, 250100 Jinan, China.

出版信息

Plant Physiol. 2020 May;183(1):41-50. doi: 10.1104/pp.20.00080. Epub 2020 Mar 23.

DOI:10.1104/pp.20.00080

PMID:32205452

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7210647/

Abstract

Heat stress (HS) has serious effects on plant development, resulting in heavy agricultural losses. A critical transcription factor network is involved in plant adaptation to high temperature. DEHYDRATION RESPONSIVE ELEMENT-BINDING PROTEIN2A (DREB2A) is a key transcription factor that functions in plant thermotolerance. The DREB2A protein is unstable under normal temperature and is degraded by the 26S proteasome; however, the mechanism by which DREB2A protein stability dramatically increases in response to HS remains poorly understood. In this study, we found that the DREB2A protein of Arabidopsis () is stabilized under high temperature by the posttranslational modification SUMOylation. Biochemical data indicated that DREB2A is SUMOylated at K163, a conserved residue adjacent to the negative regulatory domain during HS. SUMOylation of DREB2A suppresses its interaction with BPM2, a ubiquitin ligase component, consequently increasing DREB2A protein stability under high temperature. In addition, analysis of plant heat tolerance and marker gene expression indicated that DREB2A SUMOylation is essential for its function in the HS response. Collectively, our data reveal a role for SUMOylation in the maintenance of DREB2A stability under high temperature, thus improving our understanding of the regulatory mechanisms underlying HS response in plant cells.

摘要

热胁迫（HS）对植物发育有严重影响，导致农业上的重大损失。一个关键的转录因子网络参与植物对高温的适应。脱水响应元件结合蛋白2A（DREB2A）是在植物耐热性中起作用的关键转录因子。DREB2A蛋白在常温下不稳定，会被26S蛋白酶体降解；然而，DREB2A蛋白稳定性在热胁迫下显著增加的机制仍知之甚少。在本研究中，我们发现拟南芥的DREB2A蛋白在高温下通过翻译后修饰SUMO化作用而稳定。生化数据表明，在热胁迫期间，DREB2A在K163位点发生SUMO化，K163是与负调控域相邻的保守残基。DREB2A的SUMO化抑制了它与泛素连接酶组分BPM2的相互作用，从而在高温下增加了DREB2A蛋白的稳定性。此外，对植物耐热性和标记基因表达的分析表明，DREB2A的SUMO化对其在热胁迫响应中的功能至关重要。总的来说，我们的数据揭示了SUMO化在高温下维持DREB2A稳定性中的作用，从而增进了我们对植物细胞热胁迫响应潜在调控机制的理解。

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