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Influenza A Virus NS1 Protein Promotes Efficient Nuclear Export of Unspliced Viral M1 mRNA.甲型流感病毒NS1蛋白促进未剪接的病毒M1 mRNA高效核输出。
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Large-scale remodeling of a repressed exon ribonucleoprotein to an exon definition complex active for splicing.将一个被抑制的外显子核糖核蛋白大规模重塑为一个对剪接有活性的外显子定义复合体。
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Multiple determinants of splicing repression activity in the polypyrimidine tract binding proteins, PTBP1 and PTBP2.多嘧啶序列结合蛋白PTBP1和PTBP2中剪接抑制活性的多种决定因素。
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NS1-BP 蛋白与剪接和 mRNA 输出机制的结构-功能相互作用,促进病毒和宿主基因表达。

Structural-functional interactions of NS1-BP protein with the splicing and mRNA export machineries for viral and host gene expression.

机构信息

Department of Cell Biology, University of Texas Southwestern Medical Center, Dallas, TX 75390.

Department of Pharmacology, University of Texas Southwestern Medical Center, Dallas, TX 75390.

出版信息

Proc Natl Acad Sci U S A. 2018 Dec 26;115(52):E12218-E12227. doi: 10.1073/pnas.1818012115. Epub 2018 Dec 11.

DOI:10.1073/pnas.1818012115
PMID:30538201
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6310826/
Abstract

The influenza virulence factor NS1 protein interacts with the cellular NS1-BP protein to promote splicing and nuclear export of the viral M mRNAs. The viral M1 mRNA encodes the M1 matrix protein and is alternatively spliced into the M2 mRNA, which is translated into the M2 ion channel. These proteins have key functions in viral trafficking and budding. To uncover the NS1-BP structural and functional activities in splicing and nuclear export, we performed proteomics analysis of nuclear NS1-BP binding partners and showed its interaction with constituents of the splicing and mRNA export machineries. NS1-BP BTB domains form dimers in the crystal. Full-length NS1-BP is a dimer in solution and forms at least a dimer in cells. Mutations suggest that dimerization is important for splicing. The central BACK domain of NS1-BP interacts directly with splicing factors such as hnRNP K and PTBP1 and with the viral NS1 protein. The BACK domain is also the site for interactions with mRNA export factor Aly/REF and is required for viral M mRNA nuclear export. The crystal structure of the C-terminal Kelch domain shows that it forms a β-propeller fold, which is required for the splicing function of NS1-BP. This domain interacts with the polymerase II C-terminal domain and SART1, which are involved in recruitment of splicing factors and spliceosome assembly, respectively. NS1-BP functions are not only critical for processing a subset of viral mRNAs but also impact levels and nuclear export of a subset of cellular mRNAs encoding factors involved in metastasis and immunity.

摘要

流感病毒毒力因子 NS1 蛋白与细胞 NS1-BP 蛋白相互作用,促进病毒 M mRNA 的剪接和核输出。病毒 M1 mRNA 编码 M1 基质蛋白,并被选择性剪接成 M2 mRNA,后者翻译为 M2 离子通道。这些蛋白在病毒运输和出芽过程中具有关键功能。为了揭示 NS1-BP 在剪接和核输出中的结构和功能活性,我们对核 NS1-BP 结合伴侣进行了蛋白质组学分析,并显示其与剪接和 mRNA 输出机制的组成部分相互作用。NS1-BP 的 BTB 结构域在晶体中形成二聚体。全长 NS1-BP 在溶液中为二聚体,在细胞中至少形成二聚体。突变表明二聚化对于剪接很重要。NS1-BP 的中央 BACK 结构域与剪接因子(如 hnRNP K 和 PTBP1)和病毒 NS1 蛋白直接相互作用。BACK 结构域也是与 mRNA 输出因子 Aly/REF 相互作用的位点,也是病毒 M mRNA 核输出所必需的。C 末端 Kelch 结构域的晶体结构表明,它形成β-发夹折叠,这是 NS1-BP 剪接功能所必需的。该结构域与聚合酶 II C 末端结构域和 SART1 相互作用,分别参与剪接因子的募集和剪接体的组装。NS1-BP 的功能不仅对处理一组病毒 mRNAs 至关重要,而且还影响编码参与转移和免疫的细胞 mRNAs 的水平和核输出。