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U2AF在人类基因组中定义3'剪接位点并调控可变剪接的机制。

Mechanisms for U2AF to define 3' splice sites and regulate alternative splicing in the human genome.

作者信息

Shao Changwei, Yang Bo, Wu Tongbin, Huang Jie, Tang Peng, Zhou Yu, Zhou Jie, Qiu Jinsong, Jiang Li, Li Hairi, Chen Geng, Sun Hui, Zhang Yi, Denise Alain, Zhang Dong-Er, Fu Xiang-Dong

机构信息

State Key Laboratory of Virology, College of Life Sciences, Wuhan University, Wuhan, China.

Laboratoire de Recherche en Informatique, Institut de Génétique et Microbiologie I, Université Paris-Sud and Centre National de la Recherche Scientifique, Orsay, France.

出版信息

Nat Struct Mol Biol. 2014 Nov;21(11):997-1005. doi: 10.1038/nsmb.2906. Epub 2014 Oct 19.

DOI:10.1038/nsmb.2906
PMID:25326705
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4429597/
Abstract

The U2AF heterodimer has been well studied for its role in defining functional 3' splice sites in pre-mRNA splicing, but many fundamental questions still remain unaddressed regarding the function of U2AF in mammalian genomes. Through genome-wide analysis of U2AF-RNA interactions, we report that U2AF has the capacity to directly define ~88% of functional 3' splice sites in the human genome, but numerous U2AF binding events also occur in intronic locations. Mechanistic dissection reveals that upstream intronic binding events interfere with the immediate downstream 3' splice site associated either with the alternative exon, to cause exon skipping, or with the competing constitutive exon, to induce exon inclusion. We further demonstrate partial functional impairment with leukemia-associated mutations in U2AF35, but not U2AF65, in regulated splicing. These findings reveal the genomic function and regulatory mechanism of U2AF in both normal and disease states.

摘要

U2AF异源二聚体在确定前体mRNA剪接中功能性3'剪接位点方面的作用已得到充分研究,但关于U2AF在哺乳动物基因组中的功能仍有许多基本问题未得到解答。通过对U2AF-RNA相互作用进行全基因组分析,我们报告称U2AF有能力直接确定人类基因组中约88%的功能性3'剪接位点,但大量U2AF结合事件也发生在内含子区域。机制剖析表明,上游内含子结合事件会干扰与可变外显子相关的紧邻下游3'剪接位点,导致外显子跳跃,或干扰与竞争性组成型外显子相关的紧邻下游3'剪接位点,诱导外显子包含。我们进一步证明,在受调控的剪接中,U2AF35而非U2AF65的白血病相关突变会导致部分功能受损。这些发现揭示了U2AF在正常和疾病状态下的基因组功能及调控机制。

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