Browsing by Subject "Nucleobase"

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    Cubane cluster surface for pyrimidine nucleobases relaxation: DFT approach
    (Danishgah-i Azad-i Islami, 2020-12-27) Mirzaei, M.; Hadipour, N.; Gülseren, Oğuz
    Density functional theory (DFT) approach was employed to investigate relaxation processes of each of pyrimidine nucleobases (NBs); cytosine (C), thymine (T) and uracil (U), at the Cubane Cluster Surface (CCS). The main idea was about providing a material for recognition of NBs, in which a nanostructure form of cubane (CCS) was first generated by optimization process. In the next step, relaxation processes of each of NBs at the surface were investigated to examine the function of such system for NBs recognition. The results indicated that the electronic based molecular properties could work as proper parameters for recognizing such molecular system, in which energy gap (EG) could be referred for the purpose. Measuring EG could help to recognize the complexes of CCS-C, CCS-T and CCS-U from each other. Strength of such complex formations was investigated using values of binding energy (BE); CCS-U > CCS-C > CCS-T. Total results of EG, BE and additional atomic scale properties indicated that the investigated CCS could work very well to recognize U as the characteristic NB of RNA.
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    Discovery of novel agents for liver cancer therapeutics and characterization of their bioactivities on cellular pathways
    (2015-12) Durmaz, İrem
    Hepatocellular carcinoma is the second deadliest and fifth most common cancer type worldwide. Due to the limited therapy options, it is crucial to develop novel targeted therapeutic agents that provide better prognosis and enhance life quality of patients. The specific aim of this thesis was to identify and characterize novel compounds with anticancer properties in liver cancer. Three groups of molecules were investigated. First group were cardiac glycosides extracted and purified from Digitalis Ferruginea. Extensive analysis Glycoside Lanatoside C revealed that these molecules induced ROS accumulation in liver cancer cells with differential downstream targets in mesenchymal-like PTENdeficient drug-resistant Mahlavu and epithelial-like PTEN-adequate drug-sensitive Huh7 liver cancer cells. Xenograft models on nude mice also confirmed the anticancer activities of Lanatoside C in vivo with decreased tumor volume and weight. The second group of compounds were novel molecules that contains triazolothiadiazine and triazolothiadiazole scaffold, derived from known NSAIDs (ibuprofen, naproxen and flurbiprofen). Results indicated that SubG1/G1 cell cycle arrest is induced in treated cells. In addition, extensive molecular analysis disclosed oxidative stress induction and COX activity inhibition leading to ASK1 activation and Akt inhibition. The levels of downstream elements GSK3β, β-catenin and CyclinD1 were also altered. Apoptosis was characterized as the cell death mechanism that is triggered by these molecules in liver cancer cells. Novel nucleobase/nucleoside analogues were the third group of molecules explored in this study. 24 of 127 investigated compounds showed significant cytotoxicity during initial screening. 6 molecules were selected for further molecular analysis upon real-time cytotoxicity assay. It was observed that the molecules induced SubG1/G1 cell cycle arrest through Src pathway inhibition. CyclinE-cdk2 complex formation was prevented then the inhibition of Rb leading to a decrease in cell growth and proliferation and induction of apoptosis in liver cancer cells. This thesis disclosed the mode of action of three groups molecules, glycosides are pure examples of drug repurposing. NSAID represent the modified small molecule compounds for novel targets and finally nucleobase analogs are novel compounds as anti metabolites.