A Detailed Study of Solvent-Ligand Interactions and in Silico Biological Activity Predictions on Hydroxychloroquine

Authors : Mustafa Tuğfan Bilkan

Pages : 718-731

Doi:10.21597/jist.1390269

View : 55 | Download : 38

Publication Date : 2024-06-01

Article Type : Research Paper

Abstract :In this study, the effects of solvent environment changes, which are of critical importance in drug production processes, on the geometric structure and physicochemical parameters of the Hydroxychloroquine (HQC) molecule were investigated. For this purpose, optimized molecule structures were obtained using Density Functional Theory in vacuum and solvent environments. Based on the optimized structures, the molecule\'s thermochemical properties, atomic charges, and chemical reactivity data were calculated in vacuum and solvent environments. Moreover, the molecule\'s molecular electrostatic potential map and HOMO-LUMO contour maps were drawn. Vibrational frequencies, intensities, and assignments in solvent environments were determined. The characteristics of the hydrogen bonding interactions established between solvent molecules and HQC were determined in detail. ADME, toxicity, and drug-likeness predictions of the molecule were made. The study results showed that while the structural, chemical, and physical properties of the HQC molecule were severely affected when transferred to the solvent environment, they were less affected by the changes between solvent environments. In addition, very strong h-bond interactions are established between the solvent molecules and HQC.
Keywords : Solvent Effects, In silico Predictions, ADME T, Density Functional Theory

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