Author(s)

Mohammad Ahad Hossain¹, Shahin Sultana¹, Mohammad Mazherul Islam¹, Sonia Akhter¹, Faria Nur¹, Fatima Majabin¹, Kantom Islam¹, Kazi Jawad Hossain¹, Yasuhiro Ozeki², Sarkar M. A. Kawsar^1*

¹Laboratory of Carbohydrate and Nucleoside Chemistry (LCNC), Department of Chemistry, Faculty of Science, University of Chittagong, Bangladesh.
²Graduate School of NanoBio Sciences, Yokohama City University, Yokohama, Japan.

Thymidine-containing derivatives are considered to be among the most significant derivatives in medicinal chemistry. In this study, we employed a combined computational approach involving density-functional theory (DFT) calculations, molecular docking simulations, and absorption, distribution, metabolism, excretion, and toxicity (ADMET) property predictions. Prediction of activity spectra for substances (PASS) revealed promising antiviral, antimicrobial and anti-carcinogenic activities of these thymidine derivatives. Using Gaussian 09, we optimized the molecular structures of the thymidine derivatives to obtain their stable conformations and calculate their electronic properties. Subsequently, molecular docking simulations were performed to explore the binding interactions between the thymidine derivatives and the active site of the Candida albicans (PDB: 1IYL and 2Y7L) proteins. The docking results were evaluated based on docking scores, hydrogen bonding, and hydrophobic interactions and revealed favorable binding interactions between the thymidine derivatives and the proteins, suggesting their potential as antifungal agents. The thermodynamic properties, including binding free energy, enthalpy, and entropy changes were determined to assess the stability and strength of the ligands-protein complexes. The calculated pharmacokinetic parameters, such as ADMET properties, provided insights into the drug-likeness and potential bioavailability of the thymidine derivatives. These results offer a foundation for further experimental investigations and the design of novel antifungal agents targeting Candida albicans infections.

Thymidine, DFT, Molecular Docking, Pharmacokinetics, Candida albicans

Hossain, M. , Sultana, S. , Islam, M. , Akhter, S. , Nur, F. , Majabin, F. , Islam, K. , Hossain, K. , Ozeki, Y. and Kawsar, S. (2023) DFT-Based Chemical Reactivity Descriptors, Pharmacokinetics and Molecular Docking Studies of Thymidine Derivatives. Computational Chemistry, 11, 81-103. doi: 10.4236/cc.2023.114006.