镁 (II) 配合物的硅内研究、合成和抗酸活性。

Basuki Nath Jha, Richa Kothari, Anurag Agrawal
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引用次数: 0

摘要

背景如今,胃酸过多是一个严重的世界性问题,其原因是胃和近端肠道分泌过多胃酸:抗酸剂是一种能够缓冲胃酸的药物。因此,在我们的研究工作中,我们报告了通过酸碱中和过程对镁(II)配合物进行的硅内学研究、合成、表征和抗酸活性评价:本研究合成了一些镁络合物,并将它们的抗酸性与市场上的产品进行了比较。此外,还对 H+/K+ ATPase(质子泵)进行了分子内研究。所有合成的化合物都通过各种光谱技术进行了表征,如紫外可见光、傅立叶变换红外光谱、X 射线衍射和 DSC 技术:光谱分析结果表明,半咔唑配体呈现酮烯醇异构现象,并在结晶相中与镁离子形成配位稳定的复合物。傅立叶变换红外光谱(FT-IR)结果证实,镁(II)配合物中存在 Mg-O 伸展、N-H 弯曲和 C=N 伸展振动:结论:与半咔唑配体相比,镁(II)配合物的抗酸活性极佳,可与市场上销售的抗酸药物(如 ENO 和 Pantop-D)相媲美。Insilco 研究还证实,半咔唑酮配体及其镁(II)配合物都能与分子靶标的活性位点结合,而且与半咔唑酮配体相比,镁(II)配合物对大分子的结合亲和力更好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In-silico Studies, Synthesis, and Antacid Activities of Magnesium (II) Complexes.

Background: Nowadays, acidity is a severe problem worldwide caused by excessive gastric acid secretion by the stomach and proximal intestine.

Objective: Antacids are drugs capable of buffering stomach acid. Therefore, in our research work, we have reported the in-silico studies, synthesis, characterization, and evaluation of antacid activities of magnesium (II) complexes via the acid-base neutralization process.

Methods: In this research, some magnesium complexes were synthesized and their antacid behavior was compared with marketed products. Also, in-silico studies were performed on H+/K+ ATPase (Proton pump). All synthesized compounds were characterized by various spectroscopic techniques like UV-Vis, FT-IR, XRD, and DSC techniques.

Result: Spectroscopic analysis results showed that the semicarbazone ligand shows keto-enol isomerism and forms a coordinated stable complex with magnesium ions in the crystalline phase. The FT-IR results confirmed the presence of Mg-O stretching, N-H bending, and C=N stretching vibrations in Mg (II) complexes.

Conclusion: The antacid activities of Mg (II) complexes were excellent as compared to the semicarbazone ligand and comparable with that of marketed antacid drugs like ENO, and Pantop-D. Insilco studies also confirmed that semicarbazone ligand and its Mg (II) complexes were both found to be fitted into the active sites of molecular targets, and Mg (II) complexes showed better binding affinities towards macromolecular as compared to semicarbazone ligand.

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