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结合蛋白UP1使小卫星重复序列富含鸟嘌呤链中的四链体结构解折叠。

Unfolding of quadruplex structure in the G-rich strand of the minisatellite repeat by the binding protein UP1.

作者信息

Fukuda Hirokazu, Katahira Masato, Tsuchiya Naoto, Enokizono Yoshiaki, Sugimura Takashi, Nagao Minako, Nakagama Hitoshi

机构信息

Biochemistry Division, National Cancer Center Research Institute, 1-1, Tsukiji 5, Chuo-ku, Tokyo 104-0045, Japan.

出版信息

Proc Natl Acad Sci U S A. 2002 Oct 1;99(20):12685-90. doi: 10.1073/pnas.152456899. Epub 2002 Sep 16.

DOI:10.1073/pnas.152456899
PMID:12235355
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC130521/
Abstract

The mouse hypervariable minisatellite (MN) Pc-1 consists of tandem repeats of d(GGCAG) and flanked sequences. We have previously demonstrated that single-stranded d(GGCAG)(n) folds into the intramolecular folded-back quadruplex structure under physiological conditions. Because DNA polymerase progression in vitro is blocked at the repeat, the characteristic intramolecular quadruplex structure of the repeat, at least in part, could be responsible for the hypermutable feature of Pc-1 and other MNs with similar repetitive units. On the other hand, we have isolated six MN Pc-1 binding proteins (MNBPs) from nuclear extracts of NIH 3T3 cells. Here, we describe one of those MNBPs, MNBP-B, that binds to the single-stranded d(GGCAG)(n). Amino acid sequences of seven proteolytic peptide fragments of MNBP-B were determined, and the cDNA clones were isolated. MNBP-B was proven identical to the single-stranded DNA-binding protein, UP1. Recombinant UP1 bound to single-stranded d(GGCAG)(n) and other G-rich repetitive sequences, such as d(GTCAGG)(n) and d(GTTAGG)(n). In addition, UP1 was demonstrated by CD spectrum analysis to unfold the intramolecular quadruplex structure of d(GGCAG)(5) and d(TTAGGG)(4) and to abrogate the arrest of DNA synthesis at the d(GGG)(n) site. This ability of UP1 suggests that unfolding of quadruplex DNA is required for DNA synthesis processes.

摘要

小鼠高变微卫星(MN)Pc-1由d(GGCAG)串联重复序列及其侧翼序列组成。我们之前已经证明,单链d(GGCAG)(n)在生理条件下会折叠成分子内回折四重结构。由于体外DNA聚合酶的前进在重复序列处受阻,该重复序列的特征性分子内四重结构至少部分地可能是Pc-1和其他具有相似重复单元的微卫星高变特性的原因。另一方面,我们从NIH 3T3细胞的核提取物中分离出了六种MN Pc-1结合蛋白(MNBPs)。在此,我们描述其中一种MNBPs,即MNBP-B,它能与单链d(GGCAG)(n)结合。测定了MNBP-B的七个蛋白水解肽片段的氨基酸序列,并分离出了cDNA克隆。已证明MNBP-B与单链DNA结合蛋白UP1相同。重组UP1能与单链d(GGCAG)(n)以及其他富含G的重复序列,如d(GTCAGG)(n)和d(GTTAGG)(n)结合。此外,通过圆二色光谱分析表明,UP1能解开d(GGCAG)(5)和d(TTAGGG)(4)的分子内四重结构,并消除d(GGG)(n)位点处的DNA合成阻滞。UP1的这种能力表明,四重DNA的解折叠是DNA合成过程所必需的。

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本文引用的文献

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Human werner syndrome DNA helicase unwinds tetrahelical structures of the fragile X syndrome repeat sequence d(CGG)n.人类沃纳综合征DNA解旋酶可解开脆性X综合征重复序列d(CGG)n的四螺旋结构。
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The Bloom's syndrome helicase unwinds G4 DNA.布卢姆综合征解旋酶可解开G4 DNA。
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