Density Functional Theory and Molecular Modeling Studies of New 4-(Furan-2-yl) Thiazol-2-Amine Derivatives as Cyclooxygenase Inhibitors

The Egyptian Journal of Chemistry Pub Date : 2021-04-20 DOI:10.21608/EJCHEM.2021.65295.3397

S. Omran, B. A. Razik, M. Mahdi

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引用次数: 3

Abstract

Nonsteroidal anti-inflammatory drugs (NSAIDs) involve various of pharmacologically active compounds used in treatment of acute and chronic inflammation, relieve pain and fever, but chronic use of NSAIDs associated with gastrointestinal lesions, hemorrhage and nephrotoxicity. In this present research molecular modeling approach was applied on several derivatives of thiazole bearing Schiff base to design safe and effective compounds. These derivatives were docked inside the crystal structure of cyclooxygenase enzyme (COX-1 and COX-2) to evaluate the binding potency of each one with the active site of enzyme. Also, we used density functional theory (DFT) by applying energies evaluation of the highest occupied molecular orbitals (HOMOs) and lowest unoccupied molecular orbitals (LUMOs) in order to identify the reactivity parameter. Furthermore, root mean square deviation (RMSD) tool was used which shows an important role in the comparison of different conformers of the same ligand and it means a similarity measure vastly utilized in analysis of macromolecular structures and dynamic.

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新型4-(呋喃-2-基)噻唑-2-胺衍生物环加氧酶抑制剂的密度泛函理论及分子模拟研究

非甾体类抗炎药(NSAIDs)包括多种具有药理活性的化合物，用于治疗急慢性炎症，缓解疼痛和发热，但长期使用非甾体类抗炎药会导致胃肠道病变、出血和肾毒性。本研究采用分子模拟的方法对几种含席夫碱的噻唑衍生物进行研究，设计出安全有效的化合物。这些衍生物被停靠在环加氧酶(COX-1和COX-2)的晶体结构内，以评估它们与酶的活性位点的结合能力。此外，我们利用密度泛函理论(DFT)对最高已占据分子轨道(HOMOs)和最低未占据分子轨道(LUMOs)进行能量评估，以确定反应性参数。此外，使用均方根偏差(RMSD)工具，它在同一配体的不同构象的比较中发挥了重要作用，它是一种相似性度量，在大分子结构和动力学分析中广泛使用。

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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The Egyptian Journal of Chemistry

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