基于二氮杂环卡宾的大环铜配合物与 DNA 相互作用的实验和分子模拟研究。

Experimental and molecular modeling studies on the DNA-binding of diazacyclam-based acrocyclic copper complex.

机构信息

Department of Chemistry, Faculty of Science, Razi University, Kermanshah, Iran; Medical Biology Research Center (MBRC), Kermanshah University of Medical Sciences, Kermanshah, Iran.

Department of Chemistry, Payame Noor University, 19395-4697 Tehran, Iran.

出版信息

J Photochem Photobiol B. 2017 Feb;167:7-14. doi: 10.1016/j.jphotobiol.2016.12.023. Epub 2016 Dec 21.

DOI:10.1016/j.jphotobiol.2016.12.023

PMID:28039792

Abstract

The interaction of a new macrocyclic copper complex, [CuL(NO)] in which L is 1,3,6,10,12,15-hexaaza tricyclo[13.3.1.1] eicosane was investigated in vitro under simulated physiological conditions by multi-spectroscopic techniques and molecular modeling study. The fluorescence spectroscopy and UV absorption spectroscopy indicated the complex interacted with ct-DNA in a groove binding mode while the binding constant of UV-vis and the number of binding sites were 1.0±0.2×10Lmol and 1.01, respectively. The fluorometric studies showed that the reaction between the complex with ct-DNA is exothermic (ΔH=14.85kJmol; ΔS=109.54JmolK). Circular dichroism spectroscopy (CD) was employed to measure the conformational change of DNA in the presence of [CuL(NO)] complex. Furthermore, the complex induces detectable changes in the viscosity of DNA. The molecular modeling results illustrated that the complex strongly binds to groove of DNA. Experimental and molecular modeling results showed that Cu(II) complex bound to DNA by a groove binding mode.

摘要

在模拟生理条件下，通过多种光谱技术和分子模拟研究，研究了新的大环铜配合物[CuL(NO)]与 1,3,6,10,12,15-六氮杂三环[13.3.1.1]二十烷（L）的相互作用。荧光光谱和紫外吸收光谱表明，该配合物以沟结合模式与 ct-DNA 相互作用，而紫外可见的结合常数和结合位点数分别为 1.0±0.2×10Lmol 和 1.01。荧光研究表明，配合物与 ct-DNA 的反应是放热的（ΔH=14.85kJmol；ΔS=109.54JmolK）。圆二色性光谱（CD）用于测量[CuL(NO)]配合物存在下 DNA 的构象变化。此外，该配合物可引起 DNA 粘度的可检测变化。分子模拟结果表明，该配合物与 DNA 的沟强烈结合。实验和分子模拟结果表明，Cu(II)配合物通过沟结合模式与 DNA 结合。

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基于二氮杂环卡宾的大环铜配合物与 DNA 相互作用的实验和分子模拟研究。

Experimental and molecular modeling studies on the DNA-binding of diazacyclam-based acrocyclic copper complex.

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