Slovenian NMR Center, National Institute of Chemistry, Hajdrihova 19, SI-1000 Ljubljana, Slovenia.
Biochemistry. 2011 May 17;50(19):4155-61. doi: 10.1021/bi200201n. Epub 2011 Apr 25.
G-Rich oligonucleotides with cytosine residues in their sequences can form G-quadruplexes where G-quartets are flanked by G·C Watson-Crick base pairs. In an attempt to probe the role of cations in stabilization of a structural element with two G·C base pairs stacked on a G-quartet, we utilized solution state nuclear magnetic resonance to study the folding of the d(G(3)CT(4)G(3)C) oligonucleotide into a G-quadruplex upon addition of (15)NH(4)(+) ions. Its bimolecular structure exhibits antiparallel strands with edge-type loops. Two G-quartets in the core of the structure are flanked by a couple of Watson-Crick G·C base pairs in a sheared arrangement. The topology is equivalent to the solution state structure of the same oligonucleotide in the presence of Na(+) and K(+) ions [Kettani, A., et al. (1998) J. Mol. Biol.282, 619, and Bouaziz, S., et al. (1998) J. Mol. Biol.282, 637). A single ammonium ion binding site was identified between adjacent G-quartets, but three sites were expected. The remaining potential cation binding sites between G-quartets and G·C base pairs are occupied by water molecules. This is the first observation of long-lived water molecules within a G-quadruplex structure. The flanking G·C base pairs adopt a coplanar arrangement and apparently do not require cations to neutralize unfavorable electrostatic interactions among proximal carbonyl groups. A relatively fast movement of ammonium ions from the inner binding site to bulk with the rate constants of 21 s(-1) was attributed to the lack of hydrogen bonds between adjacent G·C base pairs and the flexibility of the T(4) loops.
富含鸟嘌呤的寡核苷酸序列中的胞嘧啶残基可以形成 G-四链体,其中 G-四联体由 G·C 沃森-克里克碱基对环绕。为了探究阳离子在稳定具有两个 G·C 碱基对堆叠在 G-四联体上的结构元件中的作用,我们利用溶液状态核磁共振研究了 d(G(3)CT(4)G(3)C)寡核苷酸在添加 (15)NH(4)(+)离子时折叠成 G-四链体的过程。它的双分子结构表现出反平行的链,带有边缘型环。结构核心的两个 G-四联体由一对剪切排列的沃森-克里克 G·C 碱基对环绕。拓扑结构与该寡核苷酸在存在 Na(+)和 K(+)离子时的溶液状态结构相同[Kettani, A., et al. (1998) J. Mol. Biol.282, 619, and Bouaziz, S., et al. (1998) J. Mol. Biol.282, 637)。在相邻的 G-四联体之间鉴定出一个单铵离子结合位点,但预计有三个。G-四联体和 G·C 碱基对之间的其余潜在阳离子结合位点被水分子占据。这是首次在 G-四链体结构中观察到长寿命水分子。侧翼的 G·C 碱基对采取共面排列,显然不需要阳离子来中和邻近羰基之间的不利静电相互作用。铵离子从内结合位点快速移动到主体的速率常数为 21 s(-1),这归因于相邻 G·C 碱基对之间缺乏氢键和 T(4)环的灵活性。
