Hydrothermally synthesized (N,O)-linked Cu(II)-based coordination complex as a potential antibacterial agent

Anmol Chettri, Sudarshan Pradhan, Pritika Gurung, Sriparna Roy, Biswajit Sinha
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Abstract

The N,O-linked Cu(II)-based coordination complex was synthesized hydrothermally and characterized by SC-XRD, FTIR spectroscopy, and FE-SEM. Single crystal X-ray diffraction studies showed that the complex crystallizes in a square pyramidal geometry and belongs to the monoclinic crystal system with the space group P21/n. Crystal data for C14H13CuN3O6: a = 8.7355(11) Å, b = 17.646(2) Å, c = 9.8036(12) Å, β = 98.506(6)°, V = 1494.6(3) Å3, Z = 4, μ(MoKα) = 1.500 mm-1, Dcalc = 1.701 g/cm3, 5120 reflections measured (4.616° ≤ 2Θ ≤ 49.982°), 1953 unique (Rint = 0.0316, Rsigma = 0.0718) which were used in all calculations. The final R1 was 0.0380 (I > 2σ(I)) and wR2 was 0.0972 (all data). The experimental antibacterial activity studies performed using the disc diffusion method revealed that the complex is indeed acting as a good antibacterial agent against Staphylococcus aureus and Escherichia coli. A better understanding of the binding mechanisms was uncovered through comparative molecular docking investigations. The docking score for the target S. aureus glyrase complex with DNA (PDB id-2XCS) was found to be -7.1 kcal/mol, while the docking score for dialkylglycine decarboxylase (PDB id-1D7U) was -5.2 kcal/mol. The high docking score of the complex with the target protein allowed the complex to act as a potential antibacterial agent. These results were also supported by other theoretical studies such as DFT calculations and pharmacokinetic studies. The correlation between the HOMO-LUMO energy gap and antibacterial activity was studied computationally. Hirshfeld surface analysis and pharmacokinetic studies were also performed for this crystal for a better understanding of the intermolecular interactions and ADME properties.
作为潜在抗菌剂的水热合成 (N,O)-linked Cu(II) 配位配合物
通过水热法合成了基于 N,O 链接的 Cu(II) 配位配合物,并利用 SC-XRD、傅立叶变换红外光谱和 FE-SEM 对其进行了表征。单晶 X 射线衍射研究表明,该配合物以正方形金字塔几何形状结晶,属于单斜晶系,空间群为 P21/n。C14H13CuN3O6 的晶体数据:a = 8.7355(11) Å, b = 17.646(2) Å, c = 9.8036(12) Å, β = 98.506(6)°, V = 1494.6(3) Å3, Z = 4, μ(MoKα) = 1.500 mm-1, Dcalc = 1.701 g/cm3,测得 5120 个反射 (4.616° ≤ 2Θ ≤ 49.982°),1953 个唯一反射 (Rint = 0.0316, Rsigma = 0.0718) 均用于所有计算。最终 R1 为 0.0380(I > 2σ(I)),wR2 为 0.0972(所有数据)。使用圆盘扩散法进行的抗菌活性实验研究表明,该复合物对金黄色葡萄球菌和大肠杆菌确实具有良好的抗菌作用。通过分子对接比较研究,我们对其结合机制有了更好的了解。研究发现,目标金黄色葡萄球菌糖化酶与 DNA 的复合物(PDB id-2XCS)的对接得分为-7.1 kcal/mol,而二烷基甘氨酸脱羧酶(PDB id-1D7U)的对接得分为-5.2 kcal/mol。该复合物与目标蛋白质的高对接得分使其成为一种潜在的抗菌剂。这些结果也得到了其他理论研究的支持,如 DFT 计算和药代动力学研究。计算研究了 HOMO-LUMO 能隙与抗菌活性之间的相关性。为了更好地了解分子间相互作用和 ADME 特性,还对该晶体进行了 Hirshfeld 表面分析和药物动力学研究。
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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