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鉴定 6-甲基异喋呤(6-MI)碱基类似物二聚体,这是一种光谱探针,可用于监测核酸中特定位置鸟嘌呤碱基的构象。

Characterization of the 6-methyl isoxanthopterin (6-MI) base analog dimer, a spectroscopic probe for monitoring guanine base conformations at specific sites in nucleic acids.

机构信息

Department of Chemistry and Institute of Molecular Biology, University of Oregon, Eugene, OR 97403, USA.

出版信息

Nucleic Acids Res. 2012 Feb;40(3):1191-202. doi: 10.1093/nar/gkr858. Epub 2011 Oct 18.

DOI:10.1093/nar/gkr858
PMID:22009678
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3273825/
Abstract

We here characterize local conformations of site-specifically placed pairs of guanine (G) residues in RNA and DNA, using 6-methyl isoxanthopterin (6-MI) as a conformational probe. 6-MI is a base analog of G and spectroscopic signals obtained from pairs of adjacent 6-MI residues reflect base-base interactions that are sensitive to the sequence context, local DNA conformation and solvent environment of the probe bases. CD signals show strong exciton coupling between stacked 6-MI bases in double-stranded (ds) DNA; this coupling is reduced in single-stranded (ss) DNA sequences. Solvent interactions reduce the fluorescence of the dimer probe more efficiently in ssDNA than dsDNA, while self-quenching between 6-MI bases is enhanced in dsDNA. 6-MI dimer probes closely resemble adjacent GG residues, in that these probes have minimal effects on the stability of dsDNA and on interactions with solvent additive betaine. They also serve as effective template bases, although further polymerase-dependent extension of DNA primers past 6-MI template bases is significantly inhibited. These probes are also used to monitor DNA 'breathing' at model replication forks. The 6-MI dimer probe can serve in many contexts as a useful tool to investigate GG conformations at specific sites within the nucleic acid frameworks of functioning macromolecular machines in solution.

摘要

我们使用 6-甲基异黄嘌呤(6-MI)作为构象探针,对特定位置的鸟嘌呤(G)碱基对在 RNA 和 DNA 中的局部构象进行了研究。6-MI 是 G 的碱基类似物,来自相邻 6-MI 残基的光谱信号反映了碱基-碱基相互作用,这种相互作用对序列上下文、局部 DNA 构象和探针碱基的溶剂环境敏感。CD 信号显示双链 DNA(dsDNA)中堆叠的 6-MI 碱基之间具有很强的激子耦合;这种耦合在单链(ss)DNA 序列中减少。溶剂相互作用使 ssDNA 中二聚体探针的荧光比 dsDNA 更有效地降低,而在 dsDNA 中,6-MI 碱基之间的自猝灭增强。6-MI 二聚体探针与相邻 GG 残基非常相似,因为这些探针对 dsDNA 的稳定性以及与溶剂添加剂甜菜碱的相互作用影响很小。它们也可以作为有效的模板碱基,尽管进一步依赖聚合酶的 DNA 引物在 6-MI 模板碱基上的延伸受到显著抑制。这些探针还用于监测模型复制叉处的 DNA“呼吸”。6-MI 二聚体探针在许多情况下都可以作为一种有用的工具,用于研究溶液中功能大分子机器核酸框架中特定位置的 GG 构象。

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Conformational heterogeneity and quasi-static self-quenching in DNA containing a fluorescent guanine analogue, 3MI or 6MI.
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