Synthesis, Characterization, Antimicrobial and DNA Binding Studies of a Tetradentate N2O2 Amino Acid Schiff Base and Its Coordination Compounds

T. Aiyelabola, D. Otto, J. Jordaan, E. Akinkunmi, I. Olawuni
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引用次数: 4

Abstract

Aminoethanoic acid undergoes condensation with 1,4-benzenedicarboxaldehyde to form an O, N, N, O donor Schiff base, N,N'-di(carboxymethylene) terephthalaldehyde, Ligand L. Coordination compounds of this Schiff base using Ni (II), Cu (II), VO (IV) and Co (II) were then obtained in-situ. The Schiff base and the complexes were evaluated for their antimicrobial and DNA binding abilities. Molecular docking studies of the ligand and synthesized compounds were also carried out. Evidence for the formation of the Schiff base coordination compounds and the coordinating atoms was obtained from 1H NMR, infrared and ultraviolet spectral data, EDX, EDTA complexometric titration and magnetic susceptibility measurement. The results obtained are consistent with octahedral geometry for Ni (II) complex, the metal ion coordinating to one molecule of Ligand L and with additional coordination with two oxygen atoms of two molecules of the solvent. A square-planar geometry was suggested for both Co (II), and Cu (II) complexes and a five-coordinate, square pyramidal geometry for the VO (IV) complex. The results further indicated that the carboxylic acid of Ligand L was not deprotonated both in the free base and also the complexes. In addition, the results showed that Compound 2 elicited the best antimicrobial activity potential. Generally, the compounds exhibited considerable good affinity to CT-DNA.
四齿N2O2氨基酸席夫碱及其配位化合物的合成、表征、抗菌及DNA结合研究
氨基乙醇酸与1,4-苯二甲醛缩合形成O,N,N,O供体席夫碱,N,N'-二(羧亚甲基)对苯二甲醛,配体L。然后原位获得该席夫碱与Ni(II)、Cu(II),VO(IV)和Co(II)的配位化合物。对席夫碱和配合物的抗菌能力和DNA结合能力进行了评价。还对配体和合成的化合物进行了分子对接研究。从1H NMR、红外和紫外光谱数据、EDX、EDTA络合滴定和磁化率测量中获得了席夫碱配位化合物和配位原子形成的证据。所获得的结果与Ni(II)络合物的八面体几何结构一致,金属离子与配体L的一个分子配位,并与溶剂的两个分子的两个氧原子额外配位。对于Co(II)和Cu(II)配合物,提出了正方形平面几何结构,对于VO(IV)配合物提出了五坐标正方形棱锥几何结构。结果进一步表明,配体L的羧酸在游离碱和配合物中都没有去质子化。此外,结果表明,化合物2具有最佳的抗菌活性潜力。通常,这些化合物对CT-DNA表现出相当好的亲和力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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