Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7148
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Book Part Citation - Scopus: 2Extremophilic Carbohydrases: Production, Application, and Challenges in Association With Food Processing(Elsevier, 2021) Uzuner,S.; Cekmecelioglu,D.Enzymes have a significant role in food processing. Extremozymes are also enzymes obtained from extremophilic microorganisms, which survive at extreme temperature, pH, organic solvents, and salt concentration. Extremophilic enzymes possess higher activity, higher rate of catalysis, better resistance to proteases, and stability when compared to normal enzymes. Extremozymes can be grouped as carbohydrases (e.g., amylases, cellulases, xylanases, pectinases, etc.), proteases, lipases, isomerases, esterases, and dehydrogenases based on mechanism of action and are of great potential in food and agriculture, and chemical, biomedical, and bioprocessing industries. Among all, carbohydrases are extensively used in food processing and demands in food industry are rapidly rising. However, the share of extremophilic carbohydrases in commercial use is still small as the production of extremozymes at large scale is challenging, and their application in the food industry is not fully realized yet. This chapter aims at reviewing carbohydrases of extremophilic nature, outlining production methods as well as potential applications in food manufacture. Challenges in large-scale production and application to food processing and economic aspects of extremophilic carbohydrases are also to be addressed. © 2022 Elsevier Inc.Conference Object Risk Assessment in Miscellaneous Food Processing Industries Including Producers of Vegetables and Spices(Technical Research Center of Finland, 2008) Güldaş, Metin; Ursu, Roxana; Lagouri, Vasiliki; Kısıkkaya, N. Aslı; Uyar, M. Fatih; Mokorel, Primoz; Türe, Hasan; Lee, Solmaz; Korel, Figen; Karpiskova, RenataTesting foods for pathogenic and spoilage bacteria is the cornerstone to ensuring a safe and wholesome food supply. The methods for monitoring of microbial contamination are based on the following principles: → Cultivation of microbes in the presence of different energy sources, → Analysis of their macromolecular composition and their metabolic byproducts, → Use of specific immunological reagents for bacterial classification and identification.