Rbfox1/LASR 复合物通过识别多部分 RNA 调控模块来控制替代性前 mRNA 剪接

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.12.603345
Parham Peyda, Chia-Ho Lin, Kelechi Onwuzurike, Douglas L. Black
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摘要

Rbfox 蛋白通过与 RNA 成分 GCAUG 结合来调节前 mRNA 的替代剪接。在细胞核中,大部分 Rbfox 与 LASR 结合,LASR 是一种 RNA 结合蛋白复合物,可识别其他 RNA 基团。然而,Rbfox/LASR 复合物的不同亚基如何共同作用以结合 RNA 并调控剪接仍不清楚。我们使用核酸酶保护测定法绘制了 Rbfox1/LASR 在整个转录组新生细胞 RNA 上的足迹。除 GCAUG 外,Rbfox1/LASR 还能结合含有 LASR 亚基 hnRNPs M、H/F、C 和 Matrin3 主题的 RNA。这些元素通常串联排列,形成多部分的 RNA 主题模块。为了区分 Rbfox1 与 LASR 亚基的接触位点,我们分析了失去 RNA 结合但仍与 LASR 相关的突变体 Rbfox1(F125A)。Rbfox1(F125A)/LASR复合物不再与GCAUG相互作用,但仍与LASR的RNA元件结合。剪接分析表明,除了通过邻近的 GCAUG 元激活外显子外,Rbfox 还能刺激 LASR 亚基结合位点附近的外显子。微型基因实验证明,这些不同的元件对目标外显子产生了联合调控效应。这些发现阐明了 RNA 结合蛋白复合物如何通过识别串联 RNA 元件组来解码组合剪接调控信号。
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The Rbfox1/LASR complex controls alternative pre-mRNA splicing by recognition of multi-part RNA regulatory modules
The Rbfox proteins regulate alternative pre-mRNA splicing by binding to the RNA element GCAUG. In the nucleus, most of Rbfox is bound to LASR, a complex of RNA-binding proteins that recognize additional RNA motifs. However, it remains unclear how the different subunits of the Rbfox/LASR complex act together to bind RNA and regulate splicing. We used a nuclease-protection assay to map the transcriptome-wide footprints of Rbfox1/LASR on nascent cellular RNA. In addition to GCAUG, Rbfox1/LASR binds RNA containing motifs for LASR subunits hnRNPs M, H/F, C, and Matrin3. These elements are often arranged in tandem, forming multi-part modules of RNA motifs. To distinguish contact sites of Rbfox1 from the LASR subunits, we analyzed a mutant Rbfox1(F125A) that has lost RNA binding but remains associated with LASR. Rbfox1(F125A)/LASR complexes no longer interact with GCAUG but retain binding to RNA elements for LASR. Splicing analyses reveal that in addition to activating exons through adjacent GCAUG elements, Rbfox can also stimulate exons near binding sites for LASR subunits. Mini-gene experiments demonstrate that these diverse elements produce a combined regulatory effect on a target exon. These findings illuminate how a complex of RNA-binding proteins can decode combinatorial splicing regulatory signals by recognizing groups of tandem RNA elements.
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