Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
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Master Thesis Protein-enzyme reaction followed by vibrational spectroscopy and dft (density functional theory) characterization(01. Izmir Institute of Technology, 2023) Öztoprak, Nazlı; Güler, Günnur; Yağmurcukardeş, MehmetWhey proteins are crucial for many functions of the human body. Determining the structural properties of the protein with the enzymatic hydrolysis makes it possible to improve food quality, identify allergens and better understand food poisoning. In this study, the structural alterations of β-Lactoglobulin (model whey protein) were investigated during proteolysis. Trypsin was used as a model enzyme. Digestion of β-LG by trypsin at different concentrations were measured by Fourier transform infrared (FTIR) spectroscopy as well as by Raman spectroscopy to identify the degradation of the protein and to verify the enzymatic reactions results at various temperatures in real time. Afterwards, the advanced analysis techniques, two-dimensional correlation spectroscopy (2DCOS) and curve-fitting analysis, were applied. In addition, the experimental measurements were supplemented with DFT simulations. Based on the FTIR spectroscopy results, the most notable changes take place in the amide I (1600-1700 cm-1) and in the amide II (1480-1580 cm-1) regions. FTIR spectroscopic results revealed that the structural elements of β-LG broken down and degraded during the enzymatic digestion. Moreover, the carboxylate groups (COO-) gives rise in the infrared range (1605-1580 cm-1) as released products. Raman spectroscopic results demonstrate that β-LG loses its secondary structure and the product is formed around 1425 cm-1 arising from the carboxylate groups (COO-) due to the digestion. DFT results show that the Raman spectrum of single unit arginine and lysine residues can be predicted by DFT method. Furthermore, DFT calculations give the rise at 1683 cm-1 and 3540 cm-1 caused by C-N vibrations and N-H vibrations arising from the amino groups (NH2+), respectively.Master Thesis Dark Energy Mechanisms in the Context of Extra Dimensional Models(Izmir Institute of Technology, 2011) Yağmurcukardeş, Mehmet; Erdem, RecaiDark energy is the simplest and the most standart explanation to account for the observed accelerated expansion of the universe. In this thesis we use the term 'dark energy' in its standart meaning i.e. a field or fluid that is responsible for the cosmic acceleration in the frame work of general relativity. Meanwhile extra dimensions is an attractive framework to understand many otherwise unexplained physical phenomena in a clear, simple formulation. Therefore the study of extra dimensional cosmological models is an attractive area of study. In this thesis we have considered viability of extra dimensional cosmological models in the light of the accelerated expansion of the universe. We have confirmed the results of studies that have shown the incompatibility of a broad class of extra dimensional cosmological models with a dark energy of an equation of state close to that of cosmological constant. We have discussed also possible theoritical and vational ways to avoid the no-go theorems for extra dimensional cosmological models as well.