Ct-DNA binding and antimicrobial studies of MnII and FeII macrocyclic complexes

IF 1.7 4区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Journal of Inclusion Phenomena and Macrocyclic Chemistry Pub Date : 2022-06-03 DOI:10.1007/s10847-022-01150-5

Anuj Kumar, Vinod Kumar Vashistha, Dipak Kumar Das, Ram K. Gupta, Ghulam Yasin

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引用次数: 2

Abstract

The designing of efficient macrocyclic complexes for the alteration in nucleic acids and understanding is still in debate. Herein, to study the deoxyribonucleic acid (DNA) interaction with MN₅-complexes, two macrocyclic complexes, A (Mn^II) and B (Fe^II), have been synthesized and characterized using multiple analytical techniques. The electronic absorption, fluorescence, and electrochemical methods were utilized to examine the binding ability of both complexes with calf thymus-DNA (ct-DNA). The spectral results were found to be in good agreement with the interaction of both complexes with ct-DNA, as also supported by the remarkable decrease in both anodic peak current (i_pa) and cathodic peak current (i_pc) during cyclic voltammetric analysis in the presence of ct-DNA. The spectral investigations clearly indicated the higher binding affinity of complex A as compared to complex B towards ct-DNA. Additionally, both complexes were also found to be potential antibacterial agents.

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MnII和FeII大环配合物的Ct-DNA结合及抗菌研究

如何设计有效的大环配合物来改变核酸及其理解仍存在争议。为了研究脱氧核糖核酸(DNA)与mn5配合物的相互作用，合成了两个大环配合物A (MnII)和B (FeII)，并利用多种分析技术对其进行了表征。利用电子吸收、荧光和电化学方法检测这两种复合物与小牛胸腺dna (ct-DNA)的结合能力。在循环伏安分析中发现，在ct-DNA存在下，两种配合物的阳极峰电流(ipa)和阴极峰电流(ipc)显著降低，这也支持了光谱结果与ct-DNA的相互作用。光谱研究清楚地表明配合物A对ct-DNA的结合亲和力高于配合物B。此外，这两种配合物也被发现是潜在的抗菌剂。

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来源期刊

Journal of Inclusion Phenomena and Macrocyclic Chemistry Agricultural and Biological Sciences-Food Science

CiteScore

4.10

自引率

8.70%

发文量

期刊介绍： The Journal of Inclusion Phenomena and Macrocyclic Chemistry is the premier interdisciplinary publication reporting on original research into all aspects of host-guest systems. Examples of specific areas of interest are: the preparation and characterization of new hosts and new host-guest systems, especially those involving macrocyclic ligands; crystallographic, spectroscopic, thermodynamic and theoretical studies; applications in chromatography and inclusion polymerization; enzyme modelling; molecular recognition and catalysis by inclusion compounds; intercalates in biological and non-biological systems, cyclodextrin complexes and their applications in the agriculture, flavoring, food and pharmaceutical industries; synthesis, characterization and applications of zeolites. The journal publishes primarily reports of original research and preliminary communications, provided the latter represent a significant advance in the understanding of inclusion science. Critical reviews dealing with recent advances in the field are a periodic feature of the journal.