小分子选择性识别人类端粒G-四链体DNA并调节其构象转换。

Small-molecule selectively recognizes human telomeric G-quadruplex DNA and regulates its conformational switch.

作者信息

Chen Mingli, Song Guangtao, Wang Chunyan, Hu Dan, Ren Jinsong, Qu Xiaogang

机构信息

State Key Laboratory of Rare Earth Resources Utilization, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, People's Republic of China.

出版信息

Biophys J. 2009 Oct 7;97(7):2014-23. doi: 10.1016/j.bpj.2009.07.025.

DOI:10.1016/j.bpj.2009.07.025

PMID:19804733

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2756376/

Abstract

Structural complexity is an inherent feature of the human telomeric sequence, and it presents a major challenge for developing ligands of pharmaceutical interest. Recent studies have pointed out that the induction of a quadruplex or change of a quadruplex conformation on binding may be the most powerful method to exert the desired biological effect. In this study, we demonstrate a quadruplex ligand that binds selectively to different forms of the human telomeric G-quadruplex structure and regulates its conformational switch. The results show that not only can oxazine750 selectively induce parallel quadruplex formation from a random coil telomeric oligonucleotide in the absence of added cations, it also can easily surpass the energy barrier between two structures and change the G-quadruplex conformation in Na(+) or K(+) solution. The combination of its unique properties, including the size and shape of the G-quadruplex and the small molecule, is proposed as the predominant force for regulating the special structural formation and transitions. These results may stimulate the design of new quadruplex binders that would be capable of discriminating different G-quadruplex structures as well as controlling biological phenomena, functional molecules, and nanomaterials.

摘要

结构复杂性是人类端粒序列的固有特征，这对开发具有药学意义的配体构成了重大挑战。最近的研究指出，在结合时诱导四链体形成或改变四链体构象可能是发挥所需生物学效应的最有效方法。在本研究中，我们展示了一种四链体配体，它能选择性地结合人类端粒G-四链体结构的不同形式并调节其构象转换。结果表明，恶嗪750不仅能在不添加阳离子的情况下从无规卷曲的端粒寡核苷酸中选择性诱导平行四链体形成，还能轻易跨越两种结构之间的能量屏障，并在Na(+)或K(+)溶液中改变G-四链体构象。其独特性质的组合，包括G-四链体和小分子的大小与形状，被认为是调节特殊结构形成和转变的主要力量。这些结果可能会激发新型四链体结合剂的设计，这类结合剂能够区分不同的G-四链体结构，并控制生物现象、功能分子和纳米材料。

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