DNA中甲基化CpG步骤的水合作用与识别
Hydration and recognition of methylated CpG steps in DNA.
作者信息
Mayer-Jung C, Moras D, Timsit Y
机构信息
Laboratoire de Biologie Structurale IGBMC CNRS/INSERM/ULP, Parc d'Innovation, 1, rue Laurent Fries, Illkirch 67404, France.
出版信息
EMBO J. 1998 May 1;17(9):2709-18. doi: 10.1093/emboj/17.9.2709.
Abstract
The analysis of the hydration pattern around methylated CpG steps in three high resolution (1.7, 2.15 and 2.2 A) crystal structures of A-DNA decamers reveals that the methyl groups of cytosine residues are well hydrated. In comparing the native structure with two structurally distinct forms of the decamer d(CCGCCGGCGG) fully methylated at its CpG steps, this study shows also that in certain structural and sequence contexts, the methylated cytosine base can be more hydrated that the unmodified one. These water molecules seem to be stabilized in front of the methyl group through the formation C-H...O interactions. In addition, these structures provide the first observation of magnesium cations bound to the major groove of A-DNA and reveal two distinct modes of metal binding in methylated and native duplexes. These findings suggest that methylated cytosine bases could be recognized by protein or DNA polar residues through their tightly bound water molecules.
摘要
对A-DNA十聚体的三种高分辨率(1.7、2.15和2.2埃)晶体结构中甲基化CpG步周围的水合模式分析表明,胞嘧啶残基的甲基具有良好的水合作用。在将天然结构与在其CpG步完全甲基化的十聚体d(CCGCCGGCGG)的两种结构不同的形式进行比较时,该研究还表明,在某些结构和序列背景下,甲基化的胞嘧啶碱基比未修饰的胞嘧啶碱基具有更多的水合作用。这些水分子似乎通过形成C-H...O相互作用而在甲基前稳定下来。此外,这些结构首次观察到镁阳离子与A-DNA的大沟结合,并揭示了甲基化双链体和天然双链体中两种不同的金属结合模式。这些发现表明,甲基化的胞嘧啶碱基可能通过其紧密结合的水分子被蛋白质或DNA极性残基识别。
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