通过氧化应激和酪氨酸酶抑制方面的电子表征和 MM-GBSA 研究探讨 5-羟基-2(羟甲基)-4H 吡喃-4-1 的潜在药理应用:量子化学方法

Q3 Biochemistry, Genetics and Molecular Biology
Attar Kubaib, N. N. Afroze, Mohamed Imran Predhanekar
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引用次数: 0

摘要

该研究深入探讨了 5 Hydroxy - 2 (hydroxymethyl) - 4 H pyran - 4 one 的可能应用。通过量子化学分析,研究严格评估了该化合物的特性,包括其光电子学、几何结构和分子间相互作用。利用 DFT/B3LYP 方法中的 6-311++G(d,p) 基集对几何结构参数进行了优化,然后将得到的几何因子按比例计算出可能的振动波数。使用 Mulliken 电荷和 MEP 图定位亲电、亲核区域,并使用 FMO 和 Fukui 函数评估来描述化学反应性。使用 multiwfn 研究了拓扑分析(表面距离投影和 Hirshfeld 图)。紫外可见光谱用于估算最大波长的吸收,然后与 TD-DFT、DOS 和带结构研究相关联。研究还计算了参数,包括单体和二聚单元的总能、ZPE、熵、偶极矩和热容量。药代动力学用于确定化合物的生物特性。进行了 MM-GBSA 模拟,结果表明,由于该化合物的高结合亲和力和分子间相互作用,它有可能成为一种增强抗氧化保护剂。这些发现对于开发具有药理作用和潜在毒性的治疗药物至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the Potential Pharmacological Applications of 5-Hydroxy-2 (hydroxymethyl)-4H pyran-4 one through Electronic Characterization and MM-GBSA Studies for Oxidative Stress and Tyrosinase Inhibition: A Quantum Chemical Approach
The study thoroughly examines the possible applications of 5 Hydroxy – 2 (hydroxymethyl) – 4 H pyran – 4 one. Through Quantum chemical analysis, the research rigorously evaluates the compound's properties, including its optoelectronics, geometrical structure, and intermolecular interactions. The geometrical structure parameters were optimized using a 6–311++G(d,p) basis set in the DFT/B3LYP method, and the resulting geometrical factors were then scaled to calculate probable vibrational wavenumbers. The Mulliken charges and MEP map were used to locate electrophilic, nucleophilic regions, and chemical reactivity was described using FMOs and Fukui function assessments. The multiwfn was employed to investigate topological analysis (surface distance projection and Hirshfeld maps). The UV-visible spectrum was used to estimate the absorption of maximum wavelengths, which was then correlated with the TD-DFT, DOS, and band structure investigations. The study also calculated parameters, including Total Energies, ZPE, Entropy, Dipole moment, and Heat Capacity for monomeric and dimeric units. Pharmacokinetics were used to determine the biological characteristics of the compound. The MM-GBSA simulation was performed, and the results suggest that this compound has the potential to be an enhancing anti-oxidant protection agent due to its high binding affinity and intermolecular interactions. These findings are crucial in developing therapeutic agents with pharmacological effects and potential toxicities.
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来源期刊
Turkish Computational and Theoretical Chemistry
Turkish Computational and Theoretical Chemistry Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (miscellaneous)
CiteScore
2.40
自引率
0.00%
发文量
4
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