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RAM 功能依赖于 Kapβ2 介导的核内进入。

RAM function is dependent on Kapβ2-mediated nuclear entry.

机构信息

*MRC Protein Phosphorylation Unit, College of Life Sciences, University of Dundee, Dow Street, Dundee DD1 5EH, U.K.

出版信息

Biochem J. 2014 Feb 1;457(3):473-84. doi: 10.1042/BJ20131359.

DOI:10.1042/BJ20131359
PMID:24200467
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3898117/
Abstract

Eukaryotic gene expression is dependent on the modification of the first transcribed nucleotide of pre-mRNA by the addition of the 7-methylguanosine cap. The cap protects transcripts from exonucleases and recruits complexes which mediate transcription elongation, processing and translation initiation. The cap is synthesized by a series of reactions which link 7-methylguanosine to the first transcribed nucleotide via a 5' to 5' triphosphate bridge. In mammals, cap synthesis is catalysed by the sequential action of RNGTT (RNA guanylyltransferase and 5'-phosphatase) and RNMT (RNA guanine-7 methyltransferase), enzymes recruited to RNA pol II (polymerase II) during the early stages of transcription. We recently discovered that the mammalian cap methyltransferase is a heterodimer consisting of RNMT and the RNMT-activating subunit RAM (RNMT-activating mini-protein). RAM activates and stabilizes RNMT and thus is critical for cellular cap methylation and cell viability. In the present study we report that RNMT interacts with the N-terminal 45 amino acids of RAM, a domain necessary and sufficient for maximal RNMT activation. In contrast, smaller components of this RAM domain are sufficient to stabilize RNMT. RAM functions in the nucleus and we report that nuclear import of RAM is dependent on PY nuclear localization signals and Kapβ2 (karyopherin β2) nuclear transport protein.

摘要

真核生物基因的表达依赖于前体 mRNA 第一个转录核苷酸的修饰,通过添加 7-甲基鸟苷帽来实现。帽结构可以保护转录本免受核酸外切酶的降解,并招募介导转录延伸、加工和翻译起始的复合物。帽结构的合成是通过一系列反应实现的,这些反应通过 5' 到 5' 三磷酸桥将 7-甲基鸟苷连接到第一个转录核苷酸上。在哺乳动物中,帽结构的合成由 RNGTT(RNA 鸟苷转移酶和 5'-磷酸酶)和 RNMT(RNA 鸟嘌呤-7 甲基转移酶)的顺序作用催化,这两种酶在转录的早期阶段被招募到 RNA pol II(聚合酶 II)上。我们最近发现,哺乳动物的帽甲基转移酶是由 RNMT 和 RNMT 激活亚基 RAM(RNMT-激活小蛋白)组成的异二聚体。RAM 激活并稳定 RNMT,因此对细胞内的帽甲基化和细胞活力至关重要。在本研究中,我们报告 RNMT 与 RAM 的 N 端 45 个氨基酸相互作用,这是一个对于最大程度激活 RNMT 所必需且充分的结构域。相比之下,这个 RAM 结构域的较小成分足以稳定 RNMT。RAM 在核内发挥作用,我们报告 RAM 的核输入依赖于 PY 核定位信号和 Kapβ2(核孔蛋白β2)核转运蛋白。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9f41/3898117/f6b14a0073b0/bj2013-1359i008.jpg
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