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精氨酸甲基化通过多种效应蛋白调节布氏锥虫的线粒体基因表达。

Arginine methylation regulates mitochondrial gene expression in Trypanosoma brucei through multiple effector proteins.

作者信息

Goulah Christopher C, Pelletier Michel, Read Laurie K

机构信息

Department of Microbiology and Immunology and Witebsky Center for Microbial Pathogenesis and Immunology, SUNY Buffalo School of Medicine, Buffalo, NY 14214, USA.

出版信息

RNA. 2006 Aug;12(8):1545-55. doi: 10.1261/rna.90106. Epub 2006 Jun 14.

DOI:10.1261/rna.90106
PMID:16775306
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1524885/
Abstract

Arginine methylation is a post-translational modification that impacts gene expression in both the cytoplasm and nucleus. Here, we demonstrate that arginine methylation also affects mitochondrial gene expression in the protozoan parasite, Trypanosoma brucei. Down-regulation of the major trypanosome type I protein arginine methyltransferase, TbPRMT1, leads to destabilization of specific mitochondrial mRNAs. We provide evidence that some of these effects are mediated by the mitochondrial RNA-binding protein, RBP16, which we previously demonstrated affects both RNA editing and stability. TbPRMT1 catalyzes methylation of RBP16 in vitro. Further, MALDI-TOF-MS analysis of RBP16 isolated from TbPRMT1-depleted cells indicates that, in vivo, TbPRMT1 modifies two of the three known methylated arginine residues in RBP16. Expression of mutated, nonmethylatable RBP16 in T. brucei has a dominant negative effect, leading to destabilization of a subset of those mRNAs affected by TbPRMT1 depletion. Our results suggest that the specificity and multifunctional nature of RBP16 are due, at least in part, to the presence of differentially methylated forms of the protein. However, some effects of TbPRMT1 depletion on mitochondrial gene expression cannot be accounted for by RBP16 action. Thus, these data implicate additional, unknown methylproteins in mitochondrial gene regulation.

摘要

精氨酸甲基化是一种翻译后修饰,它会影响细胞质和细胞核中的基因表达。在此,我们证明精氨酸甲基化也会影响原生动物寄生虫布氏锥虫的线粒体基因表达。布氏锥虫主要的I型蛋白质精氨酸甲基转移酶TbPRMT1的下调会导致特定线粒体mRNA的不稳定。我们提供的证据表明,其中一些效应是由线粒体RNA结合蛋白RBP16介导的,我们之前证明该蛋白会影响RNA编辑和稳定性。TbPRMT1在体外催化RBP16的甲基化。此外,对从TbPRMT1缺失细胞中分离出的RBP16进行的基质辅助激光解吸电离飞行时间质谱(MALDI-TOF-MS)分析表明,在体内,TbPRMT1修饰了RBP16中三个已知甲基化精氨酸残基中的两个。在布氏锥虫中表达突变的、不可甲基化的RBP16具有显性负效应,导致受TbPRMT1缺失影响的一部分mRNA不稳定。我们的结果表明,RBP16的特异性和多功能性质至少部分归因于该蛋白存在不同的甲基化形式。然而,TbPRMT1缺失对线粒体基因表达的一些影响不能用RBP16的作用来解释。因此,这些数据表明线粒体基因调控中还存在其他未知的甲基化蛋白。

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