Food Engineering / Gıda Mühendisliği
Permanent URI for this collectionhttps://hdl.handle.net/11147/12
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Article Citation - WoS: 78Citation - Scopus: 83Rheological and Structural Characterization of Whey Protein Gelation Induced by Enzymatic Hydrolysis(Elsevier, 2016) Tarhan, Özgür; Spotti, Maria Julia; Schaffter, Sam; Corvalan, Carlos M.; Campanella, Osvaldo H.Whey proteins hydrolyzed by Bacillus licheniformis protease (BLP) form soft and turbid aggregate gels with potential food and biotechnological applications. The purpose of the study was to characterize protease-induced whey protein gelation by comparing different protein and enzyme concentrations in terms of gel mechanical and microstructural properties, and conformational changes in the protein secondary structure due to hydrolysis and gelation. Gels formed with whey protein isolate (WPI), at concentrations 5 and 10% (w/v), and BLP concentrations, BLP/WPI (w/w), of 1, 3, and 5% were studied. Regardless of the enzyme concentration, gels with 10% WPI were strong and elastic while those with 5% WPI were weak. Gelation time decreased as the enzyme concentration increased for both protein concentrations. Gel strengths values of 10% WPI samples were independent of BLP concentrations at the end of the incubation period. Creep tests performed on the resulting gels showed that 10% WPI gels with different BLP concentration had similar elasticity, slightly increasing with BLP amount. Remarkable differences were observed in the microstructures of gel prepared with different concentrations of protein and BLP. Changes in the protein secondary structure measured during the gelation were small before gelation. However, sudden changes were observed when the samples gelled, and also after 7 h of incubation at 50 degrees C (time in which samples reached a plateau in G* as seen by rheology tests). Results revealed that without enzyme, hydrolysis of the protein was not promoted and the protein secondary structure remains the same; only a slight denaturation was observed when the protein was incubated at 50 degrees C. (C) 2016 Elsevier Ltd. All rights reserved.Article Citation - WoS: 1Citation - Scopus: 2Structural and Functional Characterization of Solution, Gel, and Aggregated Forms of Trypsin in Organic Solvent-Assisted and Ph-Induced Phase Changes(Türk Biyokimya Derneği, 2015) Ceylan, Çağatay; Karaçiçek, BilgeIn this study the effect of three different physicochemical parameters on pHtriggered gelation and aggregation of bovine pancreatic trypsin changes and structural and functional changes in these changes in alcohol-water mixtures were studied. Methods: Trypsin gelation times were studied using inverted tube method. Trypsin stability was studied using trypsin enzyme assay. Protein secondary structural changes were monitored using FTIR spectroscopy. Gel and aggregate macrostructures and morphologies were viewed using Scanning Electron Microscopy. Results: The solution phase was observed in the absence of both NaOH and CaCl2. The gel phase was observed in the absence of the either. The aggregate phase was observed in the presence of the both agents all depending on trypsin concentrations used. Trypsin stability studies showed that there were a nearly 53 and 32% specific activity losses after the gelation and aggregation processes. According to FTIR studies β–sheet structure in 1637 cm-1 band disappeared in trypsin gel and trypsin aggregates. Increases in α–helix structure in 1651 cm-1 in trypsin gel and aggregates were observed. Iodoacetamide delayed the gelation and prevented the aggregation indicating the importance of intermolecular disulfides in the both processes. Conclusion: Trypsin gelation was caused by the denaturation of the protein three dimensional structures. The gel and aggregate formation indicates a secondary structural change towards α–helix structure formation at the expense of β–sheet structure and formation of intermolecular disulfide bonds.Article Citation - WoS: 12Citation - Scopus: 16Humidity Adsorption Kinetics of a Trypsin Gel Film(Elsevier Ltd., 2012) Okur, Salih; Ceylan, Çağatay; Çulcular, EvrenThis study focuses on the humidity adsorption kinetics of an isopropanol-induced and pH-triggered bovine pancreatic trypsin gel (BPTG). The BPTG was adsorbed on a gold coated Quartz Crystal Microbalance (QCM) substrate with a thickness of 376nm. The morphology of the film was characterized using Atomic Force Microscopy (AFM). QCM was used to investigate the humidity sensing properties of the BPTG film. The response of the humidity sensor was explained using the Langmuir model. The average values of adsorption and desorption rates between 11% RH (relative humidity) and 97% RH were calculated as 2482.5M -1s -1 and 0.02s -1, respectively. The equilibrium constant and average Gibbs Free Energy of humidity adsorption and desorption cycles were obtained as 133,000 and -11.8kJ/mol, respectively. © 2011 Elsevier Inc..