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RPA与染色体复制起点的关联需要一种Mcm蛋白,并且受Rad53以及细胞周期蛋白和Dbf4依赖性激酶的调控。

Association of RPA with chromosomal replication origins requires an Mcm protein, and is regulated by Rad53, and cyclin- and Dbf4-dependent kinases.

作者信息

Tanaka T, Nasmyth K

机构信息

Research Institute of Molecular Pathology, A-1030 Vienna, Austria.

出版信息

EMBO J. 1998 Sep 1;17(17):5182-91. doi: 10.1093/emboj/17.17.5182.

DOI:10.1093/emboj/17.17.5182
PMID:9724654
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170846/
Abstract

Eukaryotic cells use multiple replication origins to replicate their large genomes. Some origins fire early during S phase whereas others fire late. In Saccharomyces cerevisiae, initiator sequences (ARSs) are bound by the origin recognition complex (ORC). Cdc6p synthesized at the end of mitosis joins ORC and facilitates recruitment of Mcm proteins, which renders origins competent to fire. However, origins fire only upon the subsequent activation of S phase cyclin-dependent kinases (S-CDKs) and Dbf4/Cdc7 at the G1/S boundary. We have used a chromatin immunoprecipitation assay to measure the association with ARS sequences of DNA primase and the single-stranded DNA binding replication protein A (RPA) when fork movement is inhibited by hydroxyurea (HU). RPA's association with origins requires S-CDKs, Dbf4/Cdc7 kinase and an Mcm protein. The recruitment of DNA primase depends on RPA. Furthermore, early- and late-firing origins differ not in the timing of their recruitment of an Mcm protein, but in the timing of RPA's recruitment. RPA is recruited to early but not to late origins in HU. We also show that Rad53 kinase is required to prevent RPA association with a late origin in HU. Our data suggest that the origin unwinding accompanied by RPA association is a key step, regulated by S-CDKs, Dbf4/Cdc7 and Rad53p. Thus, in the presence of active S-CDKs and Dbf4/Cdc7, Mcms may open origins and thereby facilitate the loading of RPA.

摘要

真核细胞利用多个复制起点来复制其庞大的基因组。一些起点在S期早期启动复制,而另一些则在晚期启动。在酿酒酵母中,起始序列(ARSs)由起点识别复合体(ORC)结合。在有丝分裂末期合成的Cdc6p与ORC结合,并促进Mcm蛋白的募集,从而使起点具备启动复制的能力。然而,起点只有在随后G1/S边界处S期细胞周期蛋白依赖性激酶(S-CDKs)和Dbf4/Cdc7激活时才会启动复制。我们利用染色质免疫沉淀试验,在羟基脲(HU)抑制叉形移动时,测量DNA引物酶和单链DNA结合复制蛋白A(RPA)与ARS序列的结合情况。RPA与起点的结合需要S-CDKs、Dbf4/Cdc7激酶和一种Mcm蛋白。DNA引物酶的募集依赖于RPA。此外,早期和晚期启动的起点在募集Mcm蛋白的时间上并无差异,而是在RPA募集的时间上有所不同。在HU处理下,RPA被募集到早期起点,而未被募集到晚期起点。我们还表明,Rad53激酶对于防止RPA在HU处理下与晚期起点结合是必需的。我们的数据表明,伴随着RPA结合的起点解旋是一个关键步骤,受S-CDKs、Dbf4/Cdc7和Rad53p调控。因此,在有活性的S-CDKs和Dbf4/Cdc7存在的情况下,Mcm蛋白可能会打开起点,从而促进RPA的装载。

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