Department of Life Science (BK21 program), Chung-Ang University, Dongjak-Gu, Republic of Korea.
Plant J. 2021 Aug;107(4):1148-1165. doi: 10.1111/tpj.15374. Epub 2021 Jul 9.
Abscisic acid (ABA) is a plant hormone that activates adaptive mechanisms to environmental stress conditions. Plant adaptive mechanisms are complex and highly modulated processes induced by stress-responsive proteins; however, the precise mechanisms by which these processes function under adverse conditions remain unclear. Here, we isolated CaUBP12 (Capsicum annuum ubiquitin-specific protease 12) from pepper (C. annuum) leaves. We show that CaUBP12 expression is significantly induced after exposure to abiotic stress treatments. We conducted loss-of-function and gain-of-function genetic studies to elucidate the biological functions of CaUBP12 in response to ABA and dehydration stress. CaUBP12-silenced pepper plants and CaUBP12-overexpressing Arabidopsis plants displayed dehydration-sensitive and dehydration-tolerant phenotypes, respectively; these phenotypes were characterized by regulation of transpirational water loss and stomatal aperture. Under dehydration stress conditions, CaUBP12-silenced pepper plants and CaUBP12-overexpressing Arabidopsis plants exhibited lower and higher expression levels of stress-related genes, respectively, than the control plants. We isolated a CaUBP12 interaction protein, CaSnRK2.6, which is a homolog of Arabidopsis OST1; degradation of this protein was partially inhibited by CaUBP12. Similar to CaUBP12-silenced pepper plants and CaUBP12-overexpressing Arabidopsis plants, CaSnRK2.6-silenced pepper plants and CaSnRK2.6-overexpressing Arabidopsis displayed dehydration-sensitive and dehydration-tolerant phenotypes, respectively. Our findings suggest that CaUBP12 positively modulates the dehydration stress response by suppressing CaSnRK2.6 protein degradation.
脱落酸(ABA)是一种植物激素,可激活植物对环境胁迫条件的适应机制。植物适应机制是由胁迫响应蛋白诱导的复杂且高度调节的过程;然而,这些过程在不利条件下的确切作用机制尚不清楚。在这里,我们从辣椒(Capsicum annuum)叶片中分离出 CaUBP12(辣椒泛素特异性蛋白酶 12)。我们表明,CaUBP12 的表达在暴露于非生物胁迫处理后显著诱导。我们进行了功能丧失和功能获得的遗传研究,以阐明 CaUBP12 在应对 ABA 和脱水胁迫时的生物学功能。CaUBP12 沉默的辣椒植物和 CaUBP12 过表达的拟南芥植物分别表现出脱水敏感和脱水耐受表型;这些表型的特征是蒸腾水损失和气孔孔径的调节。在脱水胁迫条件下,CaUBP12 沉默的辣椒植物和 CaUBP12 过表达的拟南芥植物的应激相关基因表达水平分别低于和高于对照植物。我们分离出 CaUBP12 的相互作用蛋白 CaSnRK2.6,它是拟南芥 OST1 的同源物;该蛋白的降解部分受到 CaUBP12 的抑制。类似于 CaUBP12 沉默的辣椒植物和 CaUBP12 过表达的拟南芥植物,CaSnRK2.6 沉默的辣椒植物和 CaSnRK2.6 过表达的拟南芥植物分别表现出脱水敏感和脱水耐受表型。我们的研究结果表明,CaUBP12 通过抑制 CaSnRK2.6 蛋白降解来正向调节脱水胁迫反应。
