拟南芥四个 U-box E3 泛素连接酶在负调控脱落酸介导的干旱胁迫反应中的作用。

Roles of four Arabidopsis U-box E3 ubiquitin ligases in negative regulation of abscisic acid-mediated drought stress responses.

机构信息

Department of Systems Biology, College of Life Science and Biotechnology, Yonsei University, Seoul 120-749, Korea.

出版信息

Plant Physiol. 2012 Sep;160(1):556-68. doi: 10.1104/pp.112.202143. Epub 2012 Jul 24.

DOI:10.1104/pp.112.202143

PMID:22829319

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3440228/

Abstract

AtPUB18 and AtPUB19 are homologous U-box E3 ubiquitin ligases in Arabidopsis (Arabidopsis thaliana). AtPUB19 is a negative regulator of abscisic acid (ABA)-mediated drought responses, whereas the role of AtPUB18 in drought responses is unknown. Here, loss-of-function and overexpression tests identified AtPUB18 as a negative regulator in ABA-mediated stomatal closure and water stress responses. The atpub18-2atpub19-3 double mutant line displayed more sensitivity to ABA and enhanced drought tolerance than each single mutant plant; therefore, AtPUB18 and AtPUB19 are agonistic. Stomatal closure of the atpub18-2atpub19-3 mutant was hypersensitive to hydrogen peroxide (H(2)O(2)) but not to calcium, suggesting that AtPUB18 and AtPUB19 exert negative effects on the ABA signaling pathway downstream of H(2)O(2) and upstream of calcium. AtPUB22 and AtPUB23 are other U-box E3 negative regulators of drought responses. Although atpub22atpub23 was more tolerant to drought stress relative to wild-type plants, its ABA-mediated stomatal movements were highly similar to those of wild-type plants. The atpub18-2atpub19-3atpub22atpub23 quadruple mutant exhibited enhanced tolerance to drought stress as compared with each atpub18-2atpub19-3 and atpub22atpub23 double mutant progeny; however, its stomatal behavior was almost identical to the atpub18-2atpub19-3 double mutant in the presence of ABA, H(2)O(2), and calcium. Overexpression of AtPUB18 and AtPUB19 in atpub22atpub23 effectively hindered ABA-dependent stomatal closure, but overexpression of AtPUB22 and AtPUB23 in atpub18-2atpub19-3 did not inhibit ABA-enhanced stomatal closure, highlighting their ABA-independent roles. Overall, these results suggest that AtPUB18 has a linked function with AtPUB19, but is independent from AtPUB22 and AtPUB23, in negative regulation of ABA-mediated drought stress responses.

摘要

AtPUB18 和 AtPUB19 是拟南芥（Arabidopsis thaliana）中同源的 U-box E3 泛素连接酶。AtPUB19 是脱落酸（ABA）介导的干旱响应的负调节剂，而 AtPUB18 在干旱响应中的作用尚不清楚。在这里，功能丧失和过表达测试确定 AtPUB18 是 ABA 介导的气孔关闭和水胁迫响应中的负调节剂。atpub18-2atpub19-3 双突变体系对 ABA 和增强的耐旱性比每种单突变体植物更敏感；因此，AtPUB18 和 AtPUB19 是协同作用的。atpub18-2atpub19-3 突变体的气孔关闭对过氧化氢（H2O2）敏感，但对钙不敏感，表明 AtPUB18 和 AtPUB19 对 H2O2 下游和钙上游的 ABA 信号通路产生负效应。AtPUB22 和 AtPUB23 是其他 U-box E3 负调节剂的干旱响应。尽管 atpub22atpub23 相对于野生型植物对干旱胁迫更耐受，但它的 ABA 介导的气孔运动与野生型植物非常相似。与每个 atpub18-2atpub19-3 和 atpub22atpub23 双突变体后代相比，atpub18-2atpub19-3atpub22atpub23 四重突变体表现出增强的耐旱性；然而，在存在 ABA、H2O2 和钙的情况下，其气孔行为几乎与 atpub18-2atpub19-3 双突变体相同。AtPUB18 和 AtPUB19 的过表达在 atpub22atpub23 中有效阻碍了 ABA 依赖性的气孔关闭，但 AtPUB22 和 AtPUB23 的过表达在 atpub18-2atpub19-3 中并没有抑制 ABA 增强的气孔关闭，突出了它们的 ABA 非依赖性作用。总的来说，这些结果表明 AtPUB18 与 AtPUB19 具有关联功能，但与 AtPUB22 和 AtPUB23 无关，在 ABA 介导的干旱应激反应的负调节中。

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