Despoina Beris, Varvara Podia, Irene Dervisi, Georgios Kapolas, Ioannis Isaioglou, Vasiliki Tsamadou, Lambrini Pikoula, Mantalena Rovoli, Alexandra Vallianou, Andreas Roussis, Dimitra Milioni, Helen Giannoutsou, Kosmas Haralampidis
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Due to accelerated growth, <i>ulcs1i</i> mutants reach their vegetative to reproductive transition point earlier than WT plants. However, their comparable germination rate and their similar number of secondary branches and rosette leaves at bolting indicate that <i>ulcs1i</i> is not an early flowering time mutant. GUS staining of progeny, obtained from crosses between <i>ulcs1i</i> and <i>CYCB1::GUS</i> plants, revealed an increased number of mitotic cell divisions in the root meristems of <i>ulcs1i</i> compared to WT. Immunolabeling of homogalacturonans (HGAs) epitopes showed significant fluorescent signal differences at the cell walls and the mucilage of the seeds between <i>ulcs1i</i> and WT. 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引用次数: 1
摘要
WD40-repeat-containing protein (WDRs)在所有真核生物中含量丰富。其中一些与多蛋白CRL E3连接酶复合物的亚基有关,这些复合物调节泛素化介导的蛋白质降解,从而调节各种细胞和发育过程。拟南芥WDR蛋白ULCS1的损伤会导致植物发育过程中的多效性表型,包括木质化减少、花药不开裂和不育。在这里,我们发现rnai介导的ULCS1下调导致营养发育期间的快速生长表型。由于生长加速,ulcs1i突变体比WT植株更早到达营养向生殖的过渡点。然而,它们相似的发芽率以及在抽苔时相似的次生枝和莲座叶数量表明,ulcs1i不是早开花突变体。对ulcs1i与CYCB1::GUS植物杂交的后代进行GUS染色,发现ulcs1i的根分生组织中有丝分裂细胞的分裂数量比WT增加。同源半乳糖酸表位(HGAs)的免疫标记显示,ulcs1i与WT之间细胞壁和种子粘液处的荧光信号存在显著差异。此外,我们在酵母双杂交实验中证明了ULCS1与uba样蛋白相互作用。这表明这些蛋白质在拟南芥中存在直接或间接的物理偶联。
RNAi silencing of the Arabidopsis thaliana ULCS1 gene results in pleiotropic phenotypes during plant growth and development.
WD40-repeat-containing proteins (WDRs) are highly abundant in all eukaryotes. Several have been implicated as subunits of multi-protein CRL E3 ligase complexes that regulate ubiquitination mediated protein degradation and thus various cellular and developmental processes. Impairment of the WDR protein ULCS1 from Arabidopsis causes pleiotropic phenotypes during plant development, including reduced lignification, anther indehiscence, and sterility. Here we show that RNAi-mediated downregulation of ULCS1 results in a fast-growing phenotype during vegetative development. Due to accelerated growth, ulcs1i mutants reach their vegetative to reproductive transition point earlier than WT plants. However, their comparable germination rate and their similar number of secondary branches and rosette leaves at bolting indicate that ulcs1i is not an early flowering time mutant. GUS staining of progeny, obtained from crosses between ulcs1i and CYCB1::GUS plants, revealed an increased number of mitotic cell divisions in the root meristems of ulcs1i compared to WT. Immunolabeling of homogalacturonans (HGAs) epitopes showed significant fluorescent signal differences at the cell walls and the mucilage of the seeds between ulcs1i and WT. Furthermore, we demonstrate that ULCS1 interacts with the UBA-like protein in a yeast two-hybrid assay, suggesting a direct or indirect physical coupling of these proteins in Arabidopsis.
期刊介绍:
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