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Rtf1介导的真核生物位点特异性复制终止。

Rtf1-mediated eukaryotic site-specific replication termination.

作者信息

Eydmann T, Sommariva E, Inagawa T, Mian S, Klar A J S, Dalgaard J Z

机构信息

Marie Curie Research Institute, The Chart, Oxted RH8 0TL, United Kingdom.

出版信息

Genetics. 2008 Sep;180(1):27-39. doi: 10.1534/genetics.108.089243. Epub 2008 Aug 24.

DOI:10.1534/genetics.108.089243
PMID:18723894
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2535681/
Abstract

The molecular mechanisms mediating eukaryotic replication termination and pausing remain largely unknown. Here we present the molecular characterization of Rtf1 that mediates site-specific replication termination at the polar Schizosaccharomyces pombe barrier RTS1. We show that Rtf1 possesses two chimeric myb/SANT domains: one is able to interact with the repeated motifs encoded by the RTS1 element as well as the elements enhancer region, while the other shows only a weak DNA binding activity. In addition we show that the C-terminal tail of Rtf1 mediates self-interaction, and deletion of this tail has a dominant phenotype. Finally, we identify a point mutation in Rtf1 domain I that converts the RTS1 element into a replication barrier of the opposite polarity. Together our data establish that multiple protein DNA and protein-protein interactions between Rtf1 molecules and both the repeated motifs and the enhancer region of RTS1 are required for site-specific termination at the RTS1 element.

摘要

介导真核生物复制终止和暂停的分子机制在很大程度上仍然未知。在此,我们展示了Rtf1的分子特征,它在裂殖酵母的极性屏障RTS1处介导位点特异性复制终止。我们发现Rtf1具有两个嵌合的myb/SANT结构域:一个能够与RTS1元件编码的重复基序以及该元件的增强子区域相互作用,而另一个仅表现出较弱的DNA结合活性。此外,我们还表明Rtf1的C末端尾巴介导自身相互作用,并且删除该尾巴具有显性表型。最后,我们在Rtf1结构域I中鉴定出一个点突变,该突变将RTS1元件转变为相反极性的复制屏障。我们的数据共同表明,Rtf分子与RTS1的重复基序和增强子区域之间的多种蛋白质- DNA和蛋白质-蛋白质相互作用是RTS1元件处位点特异性终止所必需的。

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