Sürdürülebilir Yeşil Kampüs Koleksiyonu / Sustainable Green Campus Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7755
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Doctoral Thesis Proteomic Studies and Its Application To Biological Samples Using Mass Spectrometry(Izmir Institute of Technology, 2017) Güray, Melda Zeynep; Karakaya, Hüseyin Çağlar; Yalçın, Talat; Yalçın, Talat; Karakaya, Hüseyin Çağlar; 04.03. Department of Molecular Biology and Genetics; 04.01. Department of Chemistry; 04. Faculty of Science; 01. Izmir Institute of TechnologyMass spectrometry (MS) is a powerful analytical tool with its application in the field of biological sciences for identification of proteins, defining post-translational modifications, studying protein expression and protein interactions. This thesis presents MS analyses of proteins for defining modifications observed during sample preparation and identification of proteins isolated from clinical samples and microorganisms. The first part of the thesis includes proteomic analysis of antimony resistant L. tropica. The results clearly indicated that the generation of antimony resistance by parasites, either in host organism or in vitro, causes alteration of protein expression levels, and the mechanism of antimony resistance in host organism and in vitro conditions follow different strategies. In the second part of the study, proteomic analysis of Bence Jones proteins isolated from urine of multiple myeloma patients was performed. Gel electrophoresis and MS analysis revealed that the proteins from different patients with different nephrotoxicity have different tendencies to form multimeric structures and contained different type of light chain. In the third part, it was shown that precipitation of proteins in acetone causes +98 u mass artifacts on proteins when analyzed by MS. The parameters affecting the formation of modification was studied and it was revealed that this modification is dependent on solution pH, incubation time and temperature. In the last part, aspartic acid and glutamic acid containing synthetic peptides were shown to be methylated upon incubation in acidified methanol solution. MS analysis revealed that the reaction is dependent on temperature and time and is affected by the type of acid included in methanol solution. All in all, this thesis provides a comprehensive study of proteins by mass spectrometry for identification of proteins from different sources, as well as defining protein modifications observed as artifacts during sample handling in proteomic workflows.Master Thesis Elucidation of Molecular Mechanisms Conferring Arsenic Tolerance To Yeast Cells(Izmir Institute of Technology, 2016) Işık, Esin; Karakaya, Hüseyin Çağlar; Karakaya, Hüseyin Çağlar; 04.03. Department of Molecular Biology and Genetics; 04. Faculty of Science; 01. Izmir Institute of TechnologyArsenic is a highly toxic metalloid available in the environment mainly as arsenite or arsenate. These compounds’ interference with many molecular mechanisms results in several diseases including cancer. Conversely, arsenic is used in therapeutic approaches, however, they are associated with drug resistance. Although some tolerance and toxicity mechanisms of arsenicals in yeast have been enlightened by previous studies, complete understanding, which is important for development of protection and therapy strategies, has not yet been achieved. Comprehensive genome-wide screening is a promising approach for the elucidation of novel genes involved in arsenic-associated mechanisms. The aim in this study was to screen a yeast genome library to characterize novel genes whose overexpression confers resistance to toxic concentrations of arsenate or arsenite in Saccharomyces cerevisiae. The plasmids from the colonies confirmed to be highly-resistant against arsenicals were sequenced to determine the genomic regions and seven genes were selected to clone into expression vectors. The overexpression of Pho86p and Vba3p provided yeast cells with the highest arsenate and arsenite resistance, respectively. Arsenate is a phosphate analogue and taken up by phosphate transporters. Pho86p is an ER-resident protein regulating ER-exit of the phosphate transporter. Therefore, it is reasonable that overexpression of Pho86p provides arsenate resistance. Vacuolar sequestration is a common route for the removal of toxic compounds from the cytosol and Vba3p is a vacuole-located transporter of basic amino acids with a likely role in arsenite resistance. Consequently, the screen in the current study revealed two genes with promising roles for tolerance mechanisms against arsenicals.