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拟南芥 UBC13 差异调节两条程序性细胞死亡途径以响应病原体和低温胁迫。

Arabidopsis UBC13 differentially regulates two programmed cell death pathways in responses to pathogen and low-temperature stress.

机构信息

College of Life Sciences, Capital Normal University, Beijing, 100048, China.

Department of Plant Sciences, University of Saskatchewan, Saskatoon, SK, Canada, S7N 5A8.

出版信息

New Phytol. 2019 Jan;221(2):919-934. doi: 10.1111/nph.15435. Epub 2018 Sep 15.

DOI:10.1111/nph.15435
PMID:30218535
Abstract

UBC13 is required for Lys63-linked polyubiquitination and innate immune responses in mammals, but its functions in plant immunity remain to be defined. Here we used genetic and pathological methods to evaluate roles of Arabidopsis UBC13 in response to pathogens and environmental stresses. Loss of UBC13 failed to activate the expression of numerous cold-responsive genes and resulted in hypersensitivity to low-temperature stress, indicating that UBC13 is involved in plant response to low-temperature stress. Furthermore, the ubc13 mutant displayed low-temperature-induced and salicylic acid-dependent lesion mimic phenotypes. Unlike typical lesion mimic mutants, ubc13 did not enhance disease resistance against virulent bacterial and fungal pathogens, but diminished hypersensitive response and compromised effector-triggered immunity against avirulent bacterial pathogens. UBC13 differently regulates two types of programmed cell death in response to low temperature and pathogen. The lesion mimic phenotype in the ubc13 mutant is partially dependent on SNC1. UBC13 interacts with an F-box protein CPR1 that regulates the homeostasis of SNC1. However, the SNC1 protein level was not altered in the ubc13 mutant, implying that UBC13 is not involved in CPR1-regulated SNC1 protein degradation. Taken together, our results revealed that UBC13 is a key regulator in plant response to low temperature and pathogens.

摘要

UBC13 是哺乳动物中赖氨酸 63 连接多泛素化和先天免疫反应所必需的,但它在植物免疫中的功能仍有待确定。在这里,我们使用遗传和病理学方法来评估拟南芥 UBC13 在应对病原体和环境胁迫中的作用。UBC13 的缺失未能激活众多冷响应基因的表达,导致对低温胁迫的超敏反应,表明 UBC13 参与植物对低温胁迫的反应。此外,ubc13 突变体表现出低温诱导和水杨酸依赖的病变模拟表型。与典型的病变模拟突变体不同,ubc13 不会增强对毒性细菌和真菌病原体的抗病性,但会削弱对非毒性细菌病原体的过敏反应和效应触发免疫。UBC13 以不同的方式调节对低温和病原体的两种类型的程序性细胞死亡。ubc13 突变体中的病变模拟表型部分依赖于 SNC1。UBC13 与 F-box 蛋白 CPR1 相互作用,该蛋白调节 SNC1 的内稳态。然而,ubc13 突变体中的 SNC1 蛋白水平没有改变,这意味着 UBC13 不参与 CPR1 调节的 SNC1 蛋白降解。总之,我们的结果表明,UBC13 是植物对低温和病原体反应的关键调节剂。

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