类RPA的哺乳动物Ctc1-Stn1-Ten1复合物与单链DNA结合并独立于Pot1途径保护端粒。

RPA-like mammalian Ctc1-Stn1-Ten1 complex binds to single-stranded DNA and protects telomeres independently of the Pot1 pathway.

作者信息

Miyake Yasuyuki, Nakamura Mirai, Nabetani Akira, Shimamura Shintaro, Tamura Miki, Yonehara Shin, Saito Motoki, Ishikawa Fuyuki

机构信息

Laboratory of Cell Cycle Regulation, Department of Gene Mechanisms, Graduate School of Biostudies, Kyoto University, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan.

出版信息

Mol Cell. 2009 Oct 23;36(2):193-206. doi: 10.1016/j.molcel.2009.08.009.

DOI:10.1016/j.molcel.2009.08.009

PMID:19854130

Abstract

Budding yeast Cdc13, Stn1, and Ten1 form the CST complex to protect telomeres from lethal DNA degradation. It remains unknown whether similar complexes are conserved in higher eukaryotes or not. Here we isolated mammalian STN1 and TEN1 homologs and CTC1 (conserved telomere maintenance component 1). The three proteins contain putative OB-fold domains and form a complex called CST, which binds to single-stranded DNA with high affinity in a sequence-independent manner. CST associates with a fraction of telomeres consistently during the cell cycle, in quiescent cells and Pot1-knockdown cells. It does not colocalize with replication foci in S phase. Significant increases in the abundance of single-stranded G-strand telomeric DNA were observed in Stn1-knockdown cells. We propose that CST is a replication protein A (RPA)-like complex that is not directly involved in conventional DNA replication at forks but plays a role in DNA metabolism frequently required by telomeres.

摘要

出芽酵母的Cdc13、Stn1和Ten1形成CST复合物，以保护端粒免受致命的DNA降解。目前尚不清楚在高等真核生物中是否存在类似的保守复合物。在此，我们分离出了哺乳动物的STN1和TEN1同源物以及CTC1（保守端粒维持成分1）。这三种蛋白质含有假定的OB折叠结构域，并形成一种名为CST的复合物，该复合物以序列无关的方式与单链DNA高亲和力结合。在细胞周期中，CST在静止细胞和Pot1敲低细胞中始终与一部分端粒相关联。它在S期不与复制位点共定位。在Stn1敲低细胞中观察到单链G链端粒DNA丰度显著增加。我们提出，CST是一种类似复制蛋白A（RPA）的复合物，它不直接参与叉状结构处的常规DNA复制，但在端粒频繁需要的DNA代谢中发挥作用。

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类RPA的哺乳动物Ctc1-Stn1-Ten1复合物与单链DNA结合并独立于Pot1途径保护端粒。

RPA-like mammalian Ctc1-Stn1-Ten1 complex binds to single-stranded DNA and protects telomeres independently of the Pot1 pathway.

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