In-silico assay of a dosing vehicle based on chitosan-TiO2 and modified benzofuran-isatin molecules against Pseudomonas aeruginosa

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Abstract

A high priority of the World Health Organization (WHO) is the study of drugs against Pseudomonas aeruginosa, which has developed antibiotic resistance. In this order, recent research is analyzing biomaterials and metal oxide nanoparticles, such as chitosan (QT) and TiO2 (NT), which can transport molecules with biological activity against bacteria, to propose them as drug carrier candidates. In the present work, 10 modified benzofuran-isatin molecules were studied through computational simulation using density functional theory (DFT) and molecular docking assays against Hfq and LpxC (proteins of P. aeruginosa). The results show that the ligand efficiency of commercial drugs C-CP and C-AZI against Hfq is low compared with the best-designed molecule MOL-A. However, we highlight that the influence of NT promotes a better interaction of some molecules, where MOL-E generates a better interaction by 0.219 kcal/mol when NT is introduced in Hfq, forming the system Hfq-NT (Target-NT). Similar behavior is observed in the LpxC target, in which MOL-J is better at 0.072 kcal/mol. Finally, two pharmacophoric models for Hfq and LpxC implicate hydrophobic and aromatic-hydrophobic fragments.
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基于壳聚糖- tio2和改性苯并呋喃-isatin分子的铜绿假单胞菌给药载体的硅内实验
世界卫生组织(世卫组织)的一项高度优先事项是研究抗已产生抗生素耐药性的铜绿假单胞菌的药物。在这方面,最近的研究正在分析生物材料和金属氧化物纳米颗粒,如壳聚糖(QT)和TiO2 (NT),它们可以运输具有生物活性的分子对抗细菌,提出它们作为药物载体的候选物。本文利用密度泛函理论(DFT)对10个改性苯并呋喃-isatin分子进行了计算模拟,并对P. aeruginosa蛋白Hfq和LpxC进行了分子对接分析。结果表明,与最佳设计分子MOL-A相比,商业药物C-CP和C-AZI对Hfq的配体效率较低。然而,我们强调NT的影响促进了一些分子的更好的相互作用,其中当NT引入Hfq时,mol - e产生了0.219 kcal/mol的更好的相互作用,形成了Hfq-NT (Target-NT)体系。在LpxC靶中也观察到类似的行为,其中mol - j在0.072 kcal/mol时表现更好。最后,Hfq和LpxC的两个药效模型涉及疏水和芳香-疏水片段。
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