Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
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Master Thesis Investigation of the biological health potency of fig stalk waste pectin for colon cancer cell growth and intestinal glucose absorption(Izmir Institute of Technology, 2022) Yemenicioğlu, Ahmet; Güleç, Şükrü; Başer, Filiz; Güleç, Şükrü; Yemenicioğlu, Ahmet; 03.08. Department of Food Engineering; 03. Faculty of Engineering; 01. Izmir Institute of TechnologyHigher intake of dietary fiber is correlated with reduced obesity-related disorders such as cardiovascular diseases and diabetes, improved gut health, and protection against colorectal cancer. Pectin comes from plant cell walls and is mainly composed of galacturonic acid units branched with neutral sugars that provide bioactive and functional properties. Pectin has long been appreciated in the food industry due to its viscous structure and gelling properties. Dietary pectin as a soluble fiber is linked with cancer and metabolic health. Anti-cancer activity of pectin is promising in multiple types of cancer in humans and animals by inducing cellular apoptosis and inhibiting tumor metastasis. Soluble dietary pectin regulates blood glucose levels, sparking interest in diabetes prevention and treatment. Fig stalk waste was used as an unconventional pectin source in the present study, providing a promising green option. The health benefit of fig stalk waste pectin (FSWP) was investigated in terms of colon cancer cell growth and intestinal glucose absorption. The inhibitory effects of FSWP on colon cancer Caco-2 cells were further confirmed with cell cycle analysis and apoptotic cell death. Intestinal glucose absorption was modeled with Caco-2 enterocyte uptake and transport systems. FSWP inhibited 2-deoxyglucose uptake into Caco-2 cells and reduced glucose absorption as a food ingredient in the intestinal transport system. Taken together, FSWP has promising bioactivity against colon cancer and could be used as a functional food additive due to its inhibitory effect on intestinal glucose absorption.Master Thesis Effect of the Morphology of Aspergillus Sojae on Pectinase Enzyme and the Optimization of Fermentation Conditions(Izmir Institute of Technology, 2006) Göğüş, Nihan; Tarı, Canan; Tarı, Canan; 03.08. Department of Food Engineering; 03. Faculty of Engineering; 01. Izmir Institute of TechnologyThe control of the morphology of fungi needs great attention for the optimal potential production of the product. For this purpose Aspergillus sojae ATCC 20235, which has no available literature report on the pectinase production, is used as a model in the determination of the optimum regions for maximum polygalacturonase synthesis and biomass formation with desired pellet morphology by using low cost carbon and nitrogen sources. Firstly, a full factorial statistical design, with the factors of, two taxonomically different strains, seven types of seed culture formulations (slants) and two types of fermentation media were used to investigate the effect of these parameters on the polygalacturonase (PG) production. According to statistical analysis, factors of strain types and fermentation media and the interaction between them were found significant on the enzyme activity. Aspergillus sojae in a complex media, inoculated with a seed culture prepared from molasses resulted in maximum PG activity (0.2 U/ml). Then, a two step optimization procedure with four factors (concentrations of maltrin and corn steep liquor (CSL), agitation speed and inoculation ratio) was used to investigate the effect of these parameters on the PG activity, mycelia growth (biomass) and morphology (pellet size) of Aspergillus sojae. According to the results of response surface methodology (RSM), concentrations of maltrin, CSL and agitation speed were significant (p<0.05) on both PG synthesis and biomass formation. As a result, maximum PG activity (13.5 U/ml) was achievable at high maltrin (120 g/l), low CSL (0 g/l), high agitation speed (350 rpm) and high inoculation ratio (2x107 total spore). The diameter of pellets ranged between 0.05-0.63 cm. The second optimization step improved the PG activity by 74 % and the biomass by 40 %. Furthermore characterization of the enzyme with respect to its optimum pH and temperature and the effect of these on the stability were considered. Determination of the thermal inactivation constant with its inactivation energy and the substrate specificity constant were estimated.