酿酒酵母U5小核核糖核蛋白颗粒中的蛋白质-RNA相互作用

Protein-RNA interactions in the U5 snRNP of Saccharomyces cerevisiae.

作者信息

Dix I, Russell C S, O'Keefe R T, Newman A J, Beggs J D

机构信息

Institute of Cell and Molecular Biology, University of Edinburgh, United Kingdom.

出版信息

RNA. 1998 Oct;4(10):1239-50. doi: 10.1017/s1355838298981109.

DOI:10.1017/s1355838298981109

PMID:9769098

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1369696/

Abstract

We present here the first insights into the organization of proteins on the RNA in the U5 snRNP of Saccharomyces cerevisiae. Photo-crosslinking with uniformly labeled U5 RNA in snRNPs reconstituted in vitro revealed five contacting proteins, Prp8p, Snu114p, p30, p16, and p10, contact by the three smaller proteins requiring an intact Sm site. Site-specific crosslinking showed that Snu114p contacts the 5' side of internal loop 1, whereas Prp8p interacts with five different regions of the 5' stem-loop, but not with the Sm site or 3' stem-loop. Both internal loops in the 5' domain are essential for Prp8p to associate with the snRNP, but the conserved loop 1 is not, although this is the region to which Prp8p crosslinks most strongly. The extensive contacts between Prp8p and the 5' stem-loop of U5 RNA support the hypothesis that, in spliceosomes, Prp8p stabilizes loop 1-exon interactions. Moreover, data showing that Prp8p contacts the exons even in the absence of loop 1 indicate that Prp8p may be the principal anchoring factor for exons in the spliceosome. This and the close proximity of the spliceosomal translocase, Snu114p, to U5 loop 1 and Prp8p support and extend the proposal that Snu114p mimics U5 loop 1 during a translocation event in the spliceosome.

摘要

我们在此展示了对酿酒酵母U5小核核糖核蛋白颗粒（snRNP）中RNA上蛋白质组织的初步见解。在体外重构的snRNP中，用均匀标记的U5 RNA进行光交联，揭示了五种与之接触的蛋白质，即Prp8p、Snu114p、p30、p16和p10，其中三种较小的蛋白质与snRNP的接触需要完整的Sm位点。位点特异性交联表明，Snu114p与内环1的5'侧接触，而Prp8p与5'茎环的五个不同区域相互作用，但不与Sm位点或3'茎环相互作用。5'结构域中的两个内环对于Prp8p与snRNP的结合至关重要，但保守的环1并非如此，尽管这是Prp8p交联最强烈的区域。Prp8p与U5 RNA的5'茎环之间广泛的接触支持了这样一种假说，即在剪接体中，Prp8p稳定环1与外显子的相互作用。此外，数据表明即使在没有环1的情况下Prp8p也能与外显子接触，这表明Prp8p可能是剪接体中外显子的主要锚定因子。这一点以及剪接体转位酶Snu114p与U5环1和Prp8p的紧密接近，支持并扩展了关于Snu114p在剪接体转位事件中模拟U5环1的提议。

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