Laboratory of Functional Genomics and Proteomics, National Centre for Biomolecular Research, Faculty of Science, Masaryk University, Brno, Czech Republic.
Mendel Centre for Plant Genomics and Proteomics, Central European Institute of Technology, Masaryk University, Brno, Czech Republic.
Plant J. 2019 Apr;98(2):195-212. doi: 10.1111/tpj.14306. Epub 2019 Apr 9.
Telomerase maturation and recruitment to telomeres is regulated by several telomerase- and telomere-associated proteins. Among a number of proteins, human Pontin and Reptin play critical roles in telomerase biogenesis. Here we characterized plant orthologues of Pontin and Reptin, RuvBL1 and RuvBL2a, respectively, and show association of Arabidopsis thaliana RuvBL1 (AtRuvBL1) with the catalytic subunit of telomerase (AtTERT) in the nucleolus in vivo. In contrast to mammals, interactions between AtTERT and AtRuvBL proteins in A. thaliana are not direct and they are rather mediated by one of the Arabidopsis thaliana Telomere Repeat Binding (AtTRB) proteins. We further show that plant orthologue of dyskerin, named AtCBF5, is indirectly associated with AtTRB proteins but not with the AtRuvBL proteins in the plant nucleus/nucleolus, and interacts with the Protection of telomere 1 (AtPOT1a) in the nucleolus or cytoplasmic foci. Our genome-wide phylogenetic analyses identify orthologues in RuvBL protein family within the plant kingdom. Dysfunction of AtRuvBL genes in heterozygous T-DNA insertion A. thaliana mutants results in reduced telomerase activity and indicate the involvement of AtRuvBL in plant telomerase biogenesis.
端粒酶的成熟和向端粒的募集受到几种端粒酶和端粒相关蛋白的调节。在许多蛋白质中,人类Pontin 和 Reptin 在端粒酶生物发生中发挥关键作用。在这里,我们分别鉴定了 Pontin 和 Reptin 的植物同源物 RuvBL1 和 RuvBL2a,并在体内显示出拟南芥 RuvBL1(AtRuvBL1)与端粒酶的催化亚基(AtTERT)在核仁中的结合。与哺乳动物不同,AtTERT 和 AtRuvBL 蛋白在 A. thaliana 之间的相互作用不是直接的,而是由一种拟南芥端粒重复结合(AtTRB)蛋白介导的。我们进一步表明,命名为 AtCBF5 的拟南芥 dyskerin 同源物与 AtTRB 蛋白间接相关,但与植物核仁/核仁中的 AtRuvBL 蛋白不相关,并且与核仁或细胞质焦点中的保护端粒 1(AtPOT1a)相互作用。我们的全基因组系统发育分析在植物界中鉴定了 RuvBL 蛋白家族的同源物。在拟南芥异源 T-DNA 插入突变体的杂合 T-DNA 插入中,AtRuvBL 基因的功能失调导致端粒酶活性降低,表明 AtRuvBL 参与植物端粒酶生物发生。
