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外显子连接复合体(EJC)的生化分析揭示了两个新因子和一个稳定的四聚体蛋白核心。

Biochemical analysis of the EJC reveals two new factors and a stable tetrameric protein core.

作者信息

Tange Thomas Ø, Shibuya Toshiharu, Jurica Melissa S, Moore Melissa J

机构信息

Howard Hughes Medical Institute, Department of Biochemistry, Brandeis University, Waltham, MA 02454, USA.

出版信息

RNA. 2005 Dec;11(12):1869-83. doi: 10.1261/rna.2155905.

DOI:10.1261/rna.2155905
PMID:16314458
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1370875/
Abstract

The multiprotein exon junction complex (EJC) is deposited on mRNAs upstream of exon-exon junctions as a consequence of pre-mRNA splicing. In mammalian cells, this complex serves as a key modulator of spliced mRNA metabolism. To date, neither the complete composition nor the exact assembly pathway of the EJC has been entirely elucidated. Using in vitro splicing and a two-step chromatography procedure, we have purified the EJC and analyzed its components by mass spectrometry. In addition to finding most of the known EJC factors, we identified two novel EJC components, Acinus and SAP18. Heterokaryon analysis revealed that SAP18 is a shuttling protein whereas Acinus is restricted to the nucleus. In MS2 tethering assays Acinus stimulated gene expression at the RNA level, while MLN51, another EJC factor, stimulated mRNA translational efficiency. Using tandem affinity purification (TAP) of proteins overexpressed in HeLa cells, we demonstrated that Acinus binds directly to another EJC component, RNPS1, while stable association of SAP18 to form the trimeric apoptosis and splicing associated protein (ASAP) complex requires both Acinus and RNPS1. Using the same methodology, we further identified what appears to be the minimal stable EJC core, a heterotetrameric complex consisting of eIF4AIII, Magoh, Y14, and MLN51.

摘要

多蛋白外显子连接复合体(EJC)在mRNA前体剪接过程中沉积于外显子-外显子连接上游的mRNA上。在哺乳动物细胞中,该复合体是剪接后mRNA代谢的关键调节因子。迄今为止,EJC的完整组成和确切组装途径均未完全阐明。利用体外剪接和两步层析法,我们纯化了EJC并通过质谱分析其组分。除了发现大多数已知的EJC因子外,我们还鉴定出两个新的EJC组分,Acinus和SAP18。异核体分析表明,SAP18是一种穿梭蛋白,而Acinus局限于细胞核。在MS2系链分析中,Acinus在RNA水平刺激基因表达,而另一个EJC因子MLN51刺激mRNA翻译效率。利用对HeLa细胞中过表达蛋白的串联亲和纯化(TAP),我们证明Acinus直接与另一个EJC组分RNPS1结合,而SAP18形成三聚体凋亡和剪接相关蛋白(ASAP)复合体的稳定缔合需要Acinus和RNPS1两者。使用相同的方法,我们进一步鉴定出似乎是最小的稳定EJC核心,即由eIF4AIII、Magoh、Y14和MLN51组成的异四聚体复合体。

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本文引用的文献

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