Biotechnology Research Center, Shandong Academy of Agricultural Sciences; Shandong Provincial Key Laboratory of Crop Genetic Improvement, Ecology and Physiology, Jinan 250100, PR China.
College of Life Science, Shandong University, Qingdao 266237, PR China.
J Exp Bot. 2021 Mar 29;72(7):2501-2513. doi: 10.1093/jxb/erab025.
Ribosomes are required for plant growth and development, and ribosome biogenesis-deficient mutants generally display auxin-related phenotypes. Although the relationship between ribosome dysfunction and auxin is known, many aspects of this subject remain to be understood. We previously reported that MIDASIN 1 (MDN1) is an essential pre-60S ribosome biogenesis factor (RBF) in Arabidopsis. In this study, we further characterized the aberrant auxin-related phenotypes of mdn1-1, a weak mutant allele of MDN1. Auxin response is disturbed in both shoots and roots of mdn1-1, as indicated by the DR5:GUS reporter. By combining transcriptome profiling analysis and reporter gene detection, we found that expression of genes involved in auxin biosynthesis, transport, and signaling is changed in mdn1-1. Furthermore, MDN1 deficiency affects the post-transcriptional regulation and protein distribution of PIN-FORMED 2 (PIN2, an auxin efflux facilitator) in mdn1-1 roots. These results indicate that MDN1 is required for maintaining the auxin system. More interestingly, MDN1 is an auxin-responsive gene, and its promoter can be targeted by multiple AUXIN RESPONSE FACTORs (ARFs), including ARF7 and ARF19, in vitro. Indeed, in arf7 arf19, the auxin sensitivity of MDN1 expression is significantly reduced. Together, our results reveal a coordination mechanism between auxin and MDN1-dependent ribosome biogenesis for regulating plant development.
核糖体是植物生长和发育所必需的,核糖体生物发生缺陷突变体通常表现出与生长素相关的表型。尽管已知核糖体功能障碍与生长素之间的关系,但这一主题的许多方面仍有待理解。我们之前报道过,MIDASIN 1(MDN1)是拟南芥中必需的前 60S 核糖体生物发生因子(RBF)。在这项研究中,我们进一步表征了 MDN1 的弱突变等位基因 mdn1-1 的异常生长素相关表型。生长素反应在 mdn1-1 的茎和根中均受到干扰,DR5:GUS 报告基因显示。通过结合转录组谱分析和报告基因检测,我们发现参与生长素生物合成、运输和信号转导的基因的表达在 mdn1-1 中发生了改变。此外,MDN1 缺乏会影响 mdn1-1 根中 PIN-FORMED 2(PIN2,一种生长素外排促进因子)的转录后调控和蛋白分布。这些结果表明 MDN1 是维持生长素系统所必需的。更有趣的是,MDN1 是一个生长素响应基因,其启动子可以在体外被多个 AUXIN RESPONSE FACTORS(ARFs),包括 ARF7 和 ARF19,靶向。事实上,在 arf7 arf19 中,MDN1 表达的生长素敏感性显著降低。总之,我们的结果揭示了生长素和 MDN1 依赖性核糖体生物发生之间调节植物发育的协调机制。
