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端粒DNA富含胞嘧啶链的一个片段分子内折叠形成一个i-基序。

Intramolecular folding of a fragment of the cytosine-rich strand of telomeric DNA into an i-motif.

作者信息

Leroy J L, Guéron M, Mergny J L, Hélène C

机构信息

l'URA D1254 du CNRS, Palaiseau, France.

出版信息

Nucleic Acids Res. 1994 May 11;22(9):1600-6. doi: 10.1093/nar/22.9.1600.

DOI:10.1093/nar/22.9.1600
PMID:8202359
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC308035/
Abstract

In the recently discovered i-motif, four stretches of cytosine form two parallel-stranded duplexes whose C.C+ base pairs are fully intercalated. The i-motif may be recognized by characteristic Overhauser cross-peaks of the proton NMR spectrum, reflecting short H1'-H1' distances across the minor groove, and short internucleotide amino-proton-H2'/H2" across the major groove. We report the observation of such cross-peaks in the spectra of a fragment of the C-rich telomeric strand of vertebrates, d[CCCTAA]3CCC. The spectra also demonstrate that the cytosines are base-paired and that proton exchange is very slow, as reported previously for the i-motif. From UV absorbance and gel chromatography measurements, we assign these properties to an i-motif which includes all or nearly all the cytosines, and which is formed by intramolecular folding at slightly acid or neutral pH. A fragment of telomeric DNA of Tetrahymena, d[CCCCAA]3CCCC, has the same properties. Hence four consecutive C stretches of a C-rich telomeric strand can fold into an i-motif. Hypothetically, this could occur in vivo.

摘要

在最近发现的i-基序中,四段胞嘧啶形成两个平行链双链体,其C·C⁺碱基对完全嵌入。i-基序可通过质子核磁共振谱的特征性奥弗豪泽交叉峰识别,这反映了小沟两侧较短的H1'-H1'距离以及大沟两侧较短的核苷酸间氨基质子-H2'/H2"距离。我们报告了在脊椎动物富含胞嘧啶的端粒链片段d[CCCTAA]₃CCC的光谱中观察到此类交叉峰。光谱还表明,胞嘧啶形成了碱基对,并且质子交换非常缓慢,这与之前报道的i-基序情况相同。通过紫外吸光度和凝胶色谱测量,我们将这些特性归因于一个i-基序,它包含所有或几乎所有的胞嘧啶,并且是在略酸性或中性pH条件下通过分子内折叠形成的。嗜热四膜虫的端粒DNA片段d[CCCCAA]₃CCC具有相同的特性。因此,富含胞嘧啶的端粒链中的四个连续C段可以折叠成一个i-基序。假设这可能在体内发生。

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