汞(II)与 C-T 错配具有高亲和力。

HgII binds to C-T mismatches with high affinity.

机构信息

University of Zurich, Department of Chemistry, Zurich, Switzerland.

出版信息

Nucleic Acids Res. 2018 Jul 27;46(13):6470-6479. doi: 10.1093/nar/gky499.

DOI:10.1093/nar/gky499

PMID:29901748

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6061796/

Abstract

Binding reactions of HgII and AgI to pyrimidine-pyrimidine mismatches in duplex DNA were characterized using fluorescent nucleobase analogs, thermal denaturation and 1H NMR. Unlike AgI, HgII exhibited stoichiometric, site-specific binding of C-T mismatches. The on- and off-rates of HgII binding were approximately 10-fold faster to C-T mismatches (kon ≈ 105 M-1 s-1, koff ≈ 10-3 s-1) as compared to T-T mismatches (kon ≈ 104 M-1 s-1, koff ≈ 10-4 s-1), resulting in very similar equilibrium binding affinities for both types of 'all natural' metallo base pairs (Kd ≈ 10-150 nM). These results are in contrast to thermal denaturation analyses, where duplexes containing T-T mismatches exhibited much larger increases in thermal stability upon addition of HgII (ΔTm = 6-19°C), as compared to those containing C-T mismatches (ΔTm = 1-4°C). In addition to revealing the high thermodynamic and kinetic stabilities of C-HgII-T base pairs, our results demonstrate that fluorescent nucleobase analogs enable highly sensitive detection and characterization of metal-mediated base pairs - even in situations where metal binding has little or no impact on the thermal stability of the duplex.

摘要

使用荧光核碱基类似物、热变性和 1H NMR 研究了 HgII 和 AgI 与双链 DNA 中嘧啶-嘧啶错配的结合反应。与 AgI 不同，HgII 表现出与 C-T 错配的化学计量、特异性结合。HgII 结合的上、离速大约是 T-T 错配的 10 倍（kon ≈ 105 M-1 s-1，koff ≈ 10-3 s-1），导致两种类型的“全天然”金属碱基对的平衡结合亲和力非常相似（Kd ≈ 10-150 nM）。这些结果与热变性分析形成对比，其中含有 T-T 错配的双链体在加入 HgII 后表现出更大的热稳定性增加（ΔTm = 6-19°C），而含有 C-T 错配的双链体则没有（ΔTm = 1-4°C）。除了揭示 C-HgII-T 碱基对的高热力学和动力学稳定性外，我们的结果还表明，荧光核碱基类似物能够高度灵敏地检测和表征金属介导的碱基对，即使在金属结合对双链体的热稳定性几乎没有影响的情况下也是如此。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1efe/6061796/a83c2126caa0/gky499fig1.jpg

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汞(II)与 C-T 错配具有高亲和力。

HgII binds to C-T mismatches with high affinity.

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