异常剪接体中间体在解体途中的结构

bioRxiv - Biochemistry Pub Date : 2024-09-14 DOI:10.1101/2024.09.13.612651

Komal Soni, Attila Horvath, Olexandr Dybkov, Merli Schwan, Sasanan Trakansuebkul, Dirk Flemming, Klemens Wild, Henning Urlaub, Tamas Fischer, Irmgard Sinning

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引用次数: 0

摘要

前 mRNA 剪接过程中的内含子去除异常复杂，其中断会导致人类多种遗传疾病。虽然通过结构-功能联合分析揭示了正常剪接体循环的关键步骤，但有关致力于过早解体的异常剪接体的结构信息尚不存在。在这里，我们报告了两种来自 S. pombe 的 B-act 后剪接体中间体的低温电子显微镜结构。我们确定了 DEAH-box 螺旋酶 - G patch 蛋白对（Gih35-Gpl1，与人类 DHX35-GPATCH1 同源），并展示了它如何维持催化休眠。在这两种结构中，Gpl1 都能识别因 U5 环 I 与 5'外显子相互作用过度稳定而导致 5'剪接位点单核苷酸插入所引入的重塑活性位点。重塑作用被传递到剪接体表面，介导解体的 Ntr1 复合物被招募。我们的数据为有针对性地分析剪接质量控制铺平了道路。

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Structures of aberrant spliceosome intermediates on their way to disassembly

Intron removal during pre-mRNA splicing is of extraordinary complexity and its disruption causes a vast number of genetic diseases in humans. While key steps of the canonical spliceosome cycle have been revealed by combined structure-function analyses, structural information on an aberrant spliceosome committed to premature disassembly is not available. Here, we report two cryo-EM structures of post-B-act spliceosome intermediates from S. pombe primed for disassembly. We identify the DEAH-box helicase - G patch protein pair (Gih35-Gpl1, homologous to human DHX35-GPATCH1) and show how it maintains catalytic dormancy. In both structures, Gpl1 recognizes a remodeled active site introduced by an over-stabilization of the U5 loop I interaction with the 5' exon leading to a single nucleotide insertion at the 5' splice site. Remodeling is communicated to the spliceosome surface and the Ntr1 complex that mediates disassembly is recruited. Our data pave the way for a targeted analysis of splicing quality control.

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bioRxiv - Biochemistry

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