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拟南芥 THO 复合物成员 HPR1 的酵母同源物 EMU 的特性分析。

Characterization of EMU, the Arabidopsis homolog of the yeast THO complex member HPR1.

机构信息

Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033 Japan.

出版信息

RNA. 2010 Sep;16(9):1809-17. doi: 10.1261/rna.2265710. Epub 2010 Jul 28.

DOI:10.1261/rna.2265710
PMID:20668032
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2924540/
Abstract

Diverse and precise control is essential for eukaryotic gene expression. This is accomplished through the recruitment of a myriad of proteins to a nascent messenger RNA (mRNA) to mediate modifications, such as capping, splicing, 3'-end processing, and export. Despite being important for every cell, however, the mechanism by which the formation of diverse messenger ribonucleoprotein (mRNP) particles contributes to maintaining intricate systems in the multicellular organism remains incompletely defined. We identified and characterized a mutant gene named erecta mRNA under-expressed (emu) that leads to the defective mRNA accumulation of ERECTA, a developmental regulator in the model plant Arabidopsis thaliana. EMU encodes a protein homologous to a component of the THO complex that is required for the generation of functional mRNPs. Further analysis suggested that EMU is genetically associated with SERRATE, HYPONASTIC LEAVES1, and ARGONAUTE1, which are required for proper RNA maturation or action. Furthermore, mutations in another THO-related gene led to embryonic lethality. These findings support the presence and importance of the THO-related complex in plants as well as yeast and vertebrates.

摘要

真核生物基因表达需要多样化且精确的控制。这种控制是通过将大量蛋白质募集到新生信使 RNA(mRNA)上来实现的,从而介导修饰,如加帽、剪接、3'末端加工和输出。然而,尽管这种机制对于每个细胞都很重要,但多样化信使核糖核蛋白(mRNP)颗粒的形成如何有助于维持多细胞生物中复杂的系统仍未完全定义。我们鉴定并表征了一个名为 erecta mRNA 表达不足(emu)的突变基因,该基因导致拟南芥发育调节剂 ERECTA 的 mRNA 积累缺陷。EMU 编码的蛋白质与 THO 复合物的一个组成部分同源,该复合物是生成功能性 mRNP 所必需的。进一步的分析表明,EMU 在遗传上与 SERRATE、HYPONASTIC LEAVES1 和 ARGONAUTE1 相关,这些基因对于正确的 RNA 成熟或作用是必需的。此外,另一个 THO 相关基因的突变导致胚胎致死。这些发现支持了 THO 相关复合物在植物、酵母和脊椎动物中的存在和重要性。

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