Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
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Master Thesis Identification of Genes That Play Roles in Boron Metabolism/(Izmir Institute of Technology, 2008) Kaya, Alaattin; Koç, AhmetBoron, is an essential microelement that plays a role in plant and animal development. However, an excess amount of boron is toxic for both types of organisms.The yeast Saccharomyces cerevisiae is an ideal model organism for describing the mechanism and regulation of metal ion transport in eukaryotes. We screened a yeast genomic DNA library to find genes that confer boron resistance to wild-type cells.Thirty transformants were isolated that were able to grow in the presence of a toxic amount of boron and all of them contained the multidrug efflux transporter gene ATR1 (YML116w) in the expression cassette. Our subsequent analysis revealed that ATR1 deletion mutants (.atr1) were sensitive to boron treatment and hyper-accumulated boron inside cells, whereas wild-type cells overexpressing the ATR1 gene were resistant to boron and hypoaccumulated boron in cells. We also analysed the global gene expression pattern in response to boron treatment and found that expression of ATR1 is upregulated along with many other transporter and amino acid biosynthesis genes. Our data suggest that the ATR1 gene functions as a boron efflux pump and is reqired for boron tolerance in yeast cells.Master Thesis Proteomic Analysis of Boron Stress Response in Yeast Saccharomyces Cerevisiale(Izmir Institute of Technology, 2011) Avşar, Kadir; Koç, AhmetBoron is a versatile element distributed in every part of the environment but most of its deposit reserves are localized in a few countries, Turkey being one of the most prominent. Boron is known to be an essential micronutrient for plants and some animals. Like any other essential element it has toxicity in high concentrations. Herein the mechanism of toxicity and the elements of the boron stress response were investigated in Saccharomyces cerevisiae with a proteomics approach. Boron is believed to have played a role in the evolution of life on earth. It has strongly electrophile organic compounds, the most important physiological form being boric acid. Boric acid has a capacity to bind cis-located hydroxl groups and some amino groups. Some of these groups are located at the active sites of some enzymes and at the carbohydrates with five-membered furanose rings. The riboses of some metabolically important molecules like S-adenosyl methionine, diadenosine phosphate family members and 3'end of RNAs are prone to be affected. The yeast cells subjected to boron in this study expressed higher amounts of carbohydrate metabolic enzymes, proteins involved in protein synthesis, protein folding and catabolism, redox homeostasis and nucleotide synthesis. All of these proteins are common to metal stress responses in yeasts. Some of them involve in other stress responses like peroxide, salt or herbicide stresses showing complex interplay between responses.