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保守的近端启动子元件控制骨骼肌肉中排斥性导向分子 c/亚铁血红素结合蛋白 2(Hfe2)基因的转录。

Conserved proximal promoter elements control repulsive guidance molecule c/hemojuvelin (Hfe2) gene transcription in skeletal muscle.

机构信息

Department of Biochemistry and Molecular Biology, Oregon Health & Science University, Portland, OR 97239-3098, USA.

出版信息

Genomics. 2010 Dec;96(6):342-51. doi: 10.1016/j.ygeno.2010.09.001. Epub 2010 Sep 19.

DOI:10.1016/j.ygeno.2010.09.001
PMID:20858542
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2988867/
Abstract

Repulsive guidance molecule c (RGMc; gene symbol: Hfe2) plays a critical role in iron metabolism. Inactivating mutations cause juvenile hemochromatosis, a severe iron overload disorder. Understanding mechanisms controlling RGMc biosynthesis has been hampered by minimal information about the RGMc gene. Here we define the structure, examine the evolution, and establish mechanisms of regulation of the mouse RGMc gene. RGMc is a 4-exon gene that undergoes alternative RNA splicing to yield 3 mRNAs with 5' different untranslated regions. Gene transcription is induced during myoblast differentiation, producing all 3 mRNAs. We identify 3 critical promoter elements responsible for transcriptional activation in skeletal muscle, comprising paired E-boxes, a putative Stat and/or Ets element, and a MEF2 site, and muscle transcription factors myogenin and MEF2C stimulate RGMc promoter function in non-muscle cells. As these elements are conserved in RGMc genes from multiple species, our results suggest that RGMc has been a muscle-enriched gene throughout its evolutionary history.

摘要

repulsive guidance molecule c(RGMc;基因符号:Hfe2)在铁代谢中发挥着关键作用。失活突变会导致青少年血色病,这是一种严重的铁过载疾病。由于对 RGMc 基因的了解甚少,因此了解控制 RGMc 生物合成的机制一直受到阻碍。在这里,我们定义了老鼠 RGMc 基因的结构,研究了它的进化,并建立了它的调控机制。RGMc 是一个 4 外显子基因,通过选择性 RNA 剪接产生具有 5'不同非翻译区的 3 种 mRNA。在成肌细胞分化过程中诱导基因转录,产生所有 3 种 mRNA。我们确定了 3 个关键的启动子元件,负责在骨骼肌中进行转录激活,包括配对的 E 盒、一个假定的 Stat 和/或 Ets 元件,以及一个 MEF2 位点,肌肉转录因子肌生成素和 MEF2C 刺激非肌肉细胞中 RGMc 启动子的功能。由于这些元件在来自多个物种的 RGMc 基因中都得到了保守,因此我们的结果表明,在其进化历史中,RGMc 一直是一种富含肌肉的基因。

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