蛋白质对四链体的破坏及其在复制和端粒维持中的生物学意义。

Destruction of quadruplex by proteins, and its biological implications in replication and telomere maintenance.

作者信息

Enokizono Yoshiaki, Matsugami Akimasa, Uesugi Seiichi, Fukuda Hirokazu, Tsuchiya Naoto, Sugimura Takashi, Nagao Minako, Nakagama Hitoshi, Katahira Masato

机构信息

Graduate School of Environmental and Information Sciences, Yokohama National University, 79-7 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan.

出版信息

Nucleic Acids Res Suppl. 2003(3):231-2. doi: 10.1093/nass/3.1.231.

DOI:10.1093/nass/3.1.231

PMID:14510465

Abstract

The minisatellite DNA Pc-1 consists of tandem repeats of d(GGCAG). We previously reported that a d(GGCAG)n strand folds into an intramolecular quadruplex under physiological conditions and that during replication the progression of DNA polymerase is blocked by the quadruplex in vitro. Therefore, the formation of the quadruplex was supposed to be responsible for the hypermutable features of Pc-1. Then, we have identified proteins that bind to Pc-1, one of which is hnRNP A1. Here, we have demonstrated that hnRNP A1 destroys the quadruplex of Pc-1 on binding and abrogates the arrest of DNA polymerase at the repeat. Thus, hnRNP A1 functions as if it is a chaperon to assist Pc-1 DNA to form the proper folding suitable for replication. We have also found that hnRNP A1 and a related protein, hnRNP D, destroy the quadruplex of telomere DNA, which suggests the involvement of these proteins in telomere maintenance as DNA chaperons.

摘要

小卫星DNA Pc-1由d(GGCAG)的串联重复序列组成。我们之前报道过，d(GGCAG)n链在生理条件下会折叠成分子内四链体，并且在体外复制过程中，DNA聚合酶的前进会被该四链体阻断。因此，四链体的形成被认为是Pc-1具有高突变特性的原因。随后，我们鉴定出了与Pc-1结合的蛋白质，其中之一是hnRNP A1。在此，我们证明hnRNP A1在结合时会破坏Pc-1的四链体，并消除DNA聚合酶在重复序列处的停滞。因此，hnRNP A1的作用就好像是一种伴侣蛋白，协助Pc-1 DNA形成适合复制的正确折叠。我们还发现hnRNP A1和一种相关蛋白hnRNP D会破坏端粒DNA的四链体，这表明这些蛋白质作为DNA伴侣蛋白参与端粒的维持。

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蛋白质对四链体的破坏及其在复制和端粒维持中的生物学意义。

Destruction of quadruplex by proteins, and its biological implications in replication and telomere maintenance.

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