在mRNA前体剪接的第一次转酯反应之前，PRP2 ATP酶激活剪接体。

Spliceosome activation by PRP2 ATPase prior to the first transesterification reaction of pre-mRNA splicing.

作者信息

Kim S H, Lin R J

机构信息

Department of Molecular Biology, Beckman Research Institute of the City of Hope, Duarte, California 91010-3000, USA.

出版信息

Mol Cell Biol. 1996 Dec;16(12):6810-9. doi: 10.1128/MCB.16.12.6810.

DOI:10.1128/MCB.16.12.6810

PMID:8943336

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC231684/

Abstract

In addition to small nuclear RNAs and spliceosomal proteins, ATP hydrolysis is needed for nuclear pre-mRNA splicing. A number of RNA-dependent ATPases which are involved in several distinct ATP-dependent steps in splicing have been identified in Saccharomyces cerevisiae and mammals. These so-called DEAD/H ATPases contain conserved RNA helicase motifs, although RNA unwinding activity has not been demonstrated in purified proteins. Here we report the role of one such DEAH protein, PRP2 of S. cerevisiae, in spliceosome activation. PRP2 bound to a precatalytic spliceosome prior to the first step of splicing. By blocking the activity of a novel splicing factor(s), HP, which was involved in a post-PRP2 step, we found that PRP2 hydrolyzed ATP to cause a change in the spliceosome without the occurrence of splicing. The change was quite dramatic and could account for the previously reported differences between the precatalytic, pre-mRNA-containing spliceosome and the "active," intermediate-containing spliceosome. The post-PRP2-ATP spliceosome was further isolated and could carry out the subsequent reaction apparently in the absence of PRP2 and ATP. We hypothesize that PRP2 functions as a molecular motor, similar to some DExH ATPases in transcription, in the activation of the precatalytic spliceosome for the transesterification reaction.

摘要

除了小核RNA和剪接体蛋白外，核内前体mRNA剪接还需要ATP水解。在酿酒酵母和哺乳动物中已鉴定出许多RNA依赖性ATP酶，它们参与剪接过程中几个不同的ATP依赖性步骤。这些所谓的DEAD/H ATP酶含有保守的RNA解旋酶基序，尽管在纯化的蛋白质中尚未证明其具有RNA解旋活性。在这里，我们报道了一种这样的DEAH蛋白，即酿酒酵母的PRP2，在剪接体激活中的作用。PRP2在剪接的第一步之前与预催化剪接体结合。通过阻断一种参与PRP2之后步骤的新型剪接因子HP的活性，我们发现PRP2水解ATP会导致剪接体发生变化，而不会发生剪接。这种变化非常显著，可以解释先前报道的含前体mRNA的预催化剪接体与含“活性”中间体的剪接体之间的差异。进一步分离了PRP2之后的ATP剪接体，并且它显然可以在没有PRP2和ATP的情况下进行后续反应。我们假设PRP2在激活预催化剪接体以进行酯交换反应时，其功能类似于转录中的一些DExH ATP酶，起到分子马达的作用。

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本文引用的文献

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