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拟南芥肌醇多磷酸激酶 AtIPK2α 和 AtIPK2β 的酶活性参与花粉发育、花粉管导向和胚胎发生。

Enzyme activities of Arabidopsis inositol polyphosphate kinases AtIPK2α and AtIPK2β are involved in pollen development, pollen tube guidance and embryogenesis.

机构信息

State Key Laboratory of Hybrid Rice, College of Life Sciences, Wuhan University, Wuhan, Hubei, 430072, China.

College of Life and Environment Sciences, Shanghai Normal University, Shanghai, 200234, China.

出版信息

Plant J. 2015 Jun;82(5):758-71. doi: 10.1111/tpj.12846. Epub 2015 May 11.

DOI:10.1111/tpj.12846
PMID:25846941
Abstract

Inositol polyphosphate kinase (IPK2) is a key component of inositol polyphosphate signaling. There are two highly homologous inositol polyphosphate kinases (AtIPK2α and AtIPK2β) in Arabidopsis. Previous studies that overexpressed or reduced the expression of AtIPK2α and AtIPK2β revealed their roles in auxiliary shoot branching, abiotic stress responses and root growth. Here, we report that AtIPK2α and AtIPK2β act redundantly during pollen development, pollen tube guidance and embryogenesis. Single knock-out mutants of atipk2α and atipk2β were indistinguishable from the wild type, whereas the atipk2α atipk2β double mutant could not be obtained. Detailed genetic and cytological investigations showed that the mutation of AtIPK2α and AtIPK2β resulted in severely reduced transmission of male gametophyte as a result of abnormal pollen development and defective pollen tube guidance. In addition, the early embryo development of the atipk2α atipk2β double mutant was also aborted. Expressing either catalytically inactive or substrate specificity-altered variants of AtIPK2β could not rescue the male gametophyte and embryogenesis defects of the atipk2α atipk2β double mutant, implying that the kinase activity of AtIPK2 is required for pollen development, pollen tube guidance and embryogenesis. Taken together, our results provide genetic evidence for the requirement of inositol polyphosphate signaling in plant sexual reproduction.

摘要

肌醇多磷酸激酶(IPK2)是肌醇多磷酸信号转导的关键组成部分。拟南芥中有两种高度同源的肌醇多磷酸激酶(AtIPK2α 和 AtIPK2β)。先前的研究表明,过表达或降低 AtIPK2α 和 AtIPK2β 的表达水平会影响辅助侧枝分枝、非生物胁迫响应和根生长。在这里,我们报告 AtIPK2α 和 AtIPK2β 在花粉发育、花粉管导向和胚胎发生过程中发挥冗余作用。atipk2α 和 atipk2β 的单敲除突变体与野生型没有区别,而 atipk2α atipk2β 双突变体则无法获得。详细的遗传和细胞学研究表明,AtIPK2α 和 AtIPK2β 的突变导致雄性配子体的传递严重减少,这是由于花粉发育异常和花粉管导向缺陷所致。此外,atipk2α atipk2β 双突变体的早期胚胎发育也被阻断。表达无催化活性或底物特异性改变的 AtIPK2β 变体都不能挽救 atipk2α atipk2β 双突变体的雄性配子体和胚胎发生缺陷,这表明 AtIPK2 的激酶活性对于花粉发育、花粉管导向和胚胎发生是必需的。总之,我们的结果提供了遗传证据,表明肌醇多磷酸信号转导在植物有性生殖中是必需的。

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