一种形状与小沟曲率不匹配的芳香族二脒在DNA小沟中的强结合。

Strong binding in the DNA minor groove by an aromatic diamidine with a shape that does not match the curvature of the groove.

作者信息

Nguyen Binh, Lee Michael P H, Hamelberg Donald, Joubert Alexandra, Bailly Christian, Brun Reto, Neidle Stephen, Wilson W David

机构信息

Department of Chemistry, Georgia State University, Atlanta, Georgia 30303, USA.

出版信息

J Am Chem Soc. 2002 Nov 20;124(46):13680-1. doi: 10.1021/ja027953c.

DOI:10.1021/ja027953c

PMID:12431090

Abstract

A combination of biophysical techniques has been used to characterize the interaction of an antitrypanosomal agent, CGP 40215A, with DNA. The results from a broad array of methods (DNase I footprinting, surface plasmon resonance, X-ray crystallography, and molecular dynamics) indicate that this compound binds to the minor groove of AT DNA sequences. Despite its unusual linear shape that is not complementary to that of the DNA groove, a high binding affinity was observed in comparison with other similar but more curved diamidine compounds. The amidine groups at both ends of the ligand and the -NH groups on the linker are involved in extensive and dynamic H-bonds to the DNA bases. Complementary and consistent results were obtained from both the X-ray and molecular dynamics studies; both of these methods reveal direct and water-mediated H-bonds between the ligand and the DNA.

摘要

已使用多种生物物理技术来表征抗锥虫剂CGP 40215A与DNA的相互作用。一系列广泛方法（DNase I足迹法、表面等离子体共振、X射线晶体学和分子动力学）的结果表明，该化合物与AT DNA序列的小沟结合。尽管其形状异常呈线性，与DNA沟不互补，但与其他类似但更弯曲的双脒化合物相比，观察到其具有高结合亲和力。配体两端的脒基和连接子上的-NH基团与DNA碱基形成广泛且动态的氢键。X射线和分子动力学研究均获得了互补且一致的结果；这两种方法均揭示了配体与DNA之间直接的和水介导的氢键。

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一种形状与小沟曲率不匹配的芳香族二脒在DNA小沟中的强结合。

Strong binding in the DNA minor groove by an aromatic diamidine with a shape that does not match the curvature of the groove.

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