Enzim Modifiye Peynir ve Üretim Teknikleri
Yıl 2022,
Cilt: 20 Sayı: 1, 94 - 102, 03.04.2022
Enise Betül Bolat
,
Zafer Erbay
Öz
Peynir lezzeti sağlayan katkılar, çeşitli gıdaların formülasyonlarında, peynir lezzeti vermek veya peynir lezzetini arttırmak için kullanılmaktadır. Gıda endüstrisinde ve bilimsel literatürde peynir lezzet katkılarına olan talep ve ilgi son yıllarda artış göstermektedir ve bunlar içerisinde en dikkat çekicisi enzim modifiye peynir (EMP)'dir. EMP, peynir lezzetini geliştirmek veya yoğunlaştırmak için taze peynirin kontrollü koşullarda enzimle işlenmesi sonucu elde edilen ürüne denilmektedir. EMP üretiminde peynirin taze hali veya pıhtısı homojen ve kararlı bir akışkana dönüştürülüp, dışarıdan ilave edilen proteolitik ve lipolitik enzimlerle işlenir ve daha sonra ısıl işlemle enzimatik reaksiyonlar durdurularak üretim tamamlanır. EMP üç farklı yöntem ile üretilebilmektedir: (1) tek hammaddeden, proteolizin ve lipolizin sırasıyla gerçekleştirildiği iki aşamalı üretim tekniği, (2) farklı hammaddelerde ayrı ayrı lipolizin ve proteolizin gerçekleştirilip, uygun oranlarda karıştırıldığı bileşen bazlı üretim yaklaşımı ve (3) tek hammaddede, tek aşamada, eşzamanlı proteoliz ve lipolizin gerçekleştirildiği tek aşamalı üretim tekniği. Tercih edilecek üretim tekniği ve üretim parametreleri, istenilen lezzette ve kararlılıkta bir EMP ürünü elde etmek için önem arz etmektedir. Bu çalışmada, doğal peynir lezzet katkısı olarak EMP açıklanmış, EMP üretimi ve üretim tekniklerine odaklanarak, literatür çalışmaları derlenmiştir.
Destekleyen Kurum
Türkiye Bilimsel ve Teknolojik Araştırma Kurumu (TÜBİTAK)
Teşekkür
Yazarlar, “Tek Aşamalı Üretim Tekniği ile Enzim Modifiye Peynir Üretimi” başlıklı 120O115 numaralı projeye mali desteğinden ve ilgisinden dolayı TÜBİTAK’a (Türkiye Bilimsel ve Teknolojik Araştırma Kurumu) teşekkür etmektedir.
Kaynakça
- [1] Moskowitz, G.J., Noelck, S.S. (1987). Enzyme-modified cheese technology. Journal of Dairy Science, 70(8), 1761-1769.
- [2] Kilcawley, K.N., Wilkinson, M.G., Fox, P.F. (1998). Enzyme-modified cheese. International Dairy Journal, 8(1), 1-10.
- [3] Erbay, Z., Baş, D., Kendirci, P., Çam, M., Kelebek, H., Salum, P., Selli, S. (2016). Lezzet katkısı olarak peynir ve enzim modifiye peynir tekniğinde güncel durum. Academic Food Journal/Akademik Gıda, 4(2), 209-217.
- [4] Erbay, Z., Koca, N., Kaymak-Ertekin, F., Ucuncu, M. (2015). Optimization of spray drying process in cheese powder production. Food and Bioproducts Processing, 93, 156-165.
- [5] Koca, N., Erbay, Z., Kaymak-Ertekin, F. (2015). Effects of spray-drying conditions on the chemical, physical, and sensory properties of cheese powder. Journal of Dairy Science, 98(5), 2934-2943.
- [6] Erbay, Z., Koca, N. (2015). Effects of whey or maltodextrin addition during production on physical quality of white cheese powder during storage. Journal of Dairy Science, 98(12), 8391-8404.
- [7] Erbay, Z., Koca, N. (2019). Effects of using whey and maltodextrin in white cheese powder production on free fatty acid content, nonenzymatic browning and oxidation degree during storage. International Dairy Journal, 96, 1-9.
- [8] Sahin, C.C., Erbay, Z., Koca, N. (2018). The physical, microstructural, chemical and sensorial properties of spray dried full-fat white cheese powders stored in different multilayer packages. Journal of Food Engineering, 229, 57-64.
- [9] Urgu-Ozturk, M., Kaymak-Ertekin, F., Koca, N. (2021). Production of reduced-fat white cheese powder: The effects of fat reduction and microparticulated protein usage on the characteristics of the cheese powder during storage. Powder Technology, 391, 510-521.
- [10] da Silva, D.F., Larsen, F.H., Hougaard, A.B., Ipsen, R. (2017). The influence of raw material, added emulsifying salt and spray drying on cheese powder structure and hydration properties. International Dairy Journal, 74, 27-38.
- [11] da Silva, D.F., Ahrne, L., Larsen, F.H., Hougaard, A.B., Ipsen, R. (2018). Physical and functional properties of cheese powders affected by sweet whey powder addition before or after spray drying. Powder Technology, 323, 139-148.
- [12] da Silva, D.F., Hirschberg, C., Ahrné, L., Hougaard, A.B., Ipsen, R. (2018). Cheese feed to powder: Effects of cheese age, added dairy ingredients and spray drying temperature on properties of cheese powders. Journal of Food Engineering, 237, 215-225.
- [13] da Silva, D.F., Vlachvei, K., Tziouri, D., Hougaard, A.B., Ipsen, R., Ahrné, L. (2019). Cheese powder as emulsifier in oil-in-water (O/W) emulsions: Effect of powder concentration and added emulsifying salt during cheese powder manufacture. Food Science & Technology, 103, 266-270.
- [14] da Silva, D.F., Vlachvei, K., Geng, X., Ahrné, L., Ipsen, R., Hougaard, A.B. (2020). Effect of cheese maturation on physical stability, flow properties and microstructure of oil-in-water emulsions stabilised with cheese powders. International Dairy Journal, 103, 104630.
- [15] da Silva, D.F., Tziouri, D., Ahrné, L., Bovet, N., Larsen, F.H., Ipsen, R., Hougaard, A.B. (2020). Reconstitution behavior of cheese powders: Effects of cheese age and dairy ingredients on wettability, dispersibility and total rehydration. Journal of Food Engineering, 270, 109763.
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Enzyme-Modified Cheese and Production Techniques
Yıl 2022,
Cilt: 20 Sayı: 1, 94 - 102, 03.04.2022
Enise Betül Bolat
,
Zafer Erbay
Öz
Cheese flavor ingredients are used to give or enhance cheese flavor in the formulations of various foods. The demand and interest in cheese flavor ingredients in the food industry and scientific literature have increased in recent years, and the most notable one among them is enzyme-modified cheese (EMC). EMC is the product obtained by processing fresh cheese with enzymatic treatments under controlled conditions to improve or intensify cheese flavor. In EMC production, fresh form or cheese curd of targeted cheese is transformed into homogeneous and stable slurry; and processed with exogenous proteolytic and lipolytic enzymes, then the production is completed by stopping the enzymatic reactions with heat treatment. EMC can be produced with three different production techniques; (1) a two-stage production technique in which proteolytic and lipolytic reactions are carried out in sequence from a single substrate, (2) a component-based production approach in which proteolysis and lipolysis performed separately in different raw materials and the mid products are blended in appropriate proportions, (3) one-stage production technique in which lipolytic and proteolytic reactions simultaneously occur from a single substrate. The production technique and parameters are important in order to obtain desired flavor and to produce a stable EMC product. In this study, as a natural cheese flavor ingredient, EMC was described and the scientific studies were reviewed by focusing on the production and production techniques of EMC.
Kaynakça
- [1] Moskowitz, G.J., Noelck, S.S. (1987). Enzyme-modified cheese technology. Journal of Dairy Science, 70(8), 1761-1769.
- [2] Kilcawley, K.N., Wilkinson, M.G., Fox, P.F. (1998). Enzyme-modified cheese. International Dairy Journal, 8(1), 1-10.
- [3] Erbay, Z., Baş, D., Kendirci, P., Çam, M., Kelebek, H., Salum, P., Selli, S. (2016). Lezzet katkısı olarak peynir ve enzim modifiye peynir tekniğinde güncel durum. Academic Food Journal/Akademik Gıda, 4(2), 209-217.
- [4] Erbay, Z., Koca, N., Kaymak-Ertekin, F., Ucuncu, M. (2015). Optimization of spray drying process in cheese powder production. Food and Bioproducts Processing, 93, 156-165.
- [5] Koca, N., Erbay, Z., Kaymak-Ertekin, F. (2015). Effects of spray-drying conditions on the chemical, physical, and sensory properties of cheese powder. Journal of Dairy Science, 98(5), 2934-2943.
- [6] Erbay, Z., Koca, N. (2015). Effects of whey or maltodextrin addition during production on physical quality of white cheese powder during storage. Journal of Dairy Science, 98(12), 8391-8404.
- [7] Erbay, Z., Koca, N. (2019). Effects of using whey and maltodextrin in white cheese powder production on free fatty acid content, nonenzymatic browning and oxidation degree during storage. International Dairy Journal, 96, 1-9.
- [8] Sahin, C.C., Erbay, Z., Koca, N. (2018). The physical, microstructural, chemical and sensorial properties of spray dried full-fat white cheese powders stored in different multilayer packages. Journal of Food Engineering, 229, 57-64.
- [9] Urgu-Ozturk, M., Kaymak-Ertekin, F., Koca, N. (2021). Production of reduced-fat white cheese powder: The effects of fat reduction and microparticulated protein usage on the characteristics of the cheese powder during storage. Powder Technology, 391, 510-521.
- [10] da Silva, D.F., Larsen, F.H., Hougaard, A.B., Ipsen, R. (2017). The influence of raw material, added emulsifying salt and spray drying on cheese powder structure and hydration properties. International Dairy Journal, 74, 27-38.
- [11] da Silva, D.F., Ahrne, L., Larsen, F.H., Hougaard, A.B., Ipsen, R. (2018). Physical and functional properties of cheese powders affected by sweet whey powder addition before or after spray drying. Powder Technology, 323, 139-148.
- [12] da Silva, D.F., Hirschberg, C., Ahrné, L., Hougaard, A.B., Ipsen, R. (2018). Cheese feed to powder: Effects of cheese age, added dairy ingredients and spray drying temperature on properties of cheese powders. Journal of Food Engineering, 237, 215-225.
- [13] da Silva, D.F., Vlachvei, K., Tziouri, D., Hougaard, A.B., Ipsen, R., Ahrné, L. (2019). Cheese powder as emulsifier in oil-in-water (O/W) emulsions: Effect of powder concentration and added emulsifying salt during cheese powder manufacture. Food Science & Technology, 103, 266-270.
- [14] da Silva, D.F., Vlachvei, K., Geng, X., Ahrné, L., Ipsen, R., Hougaard, A.B. (2020). Effect of cheese maturation on physical stability, flow properties and microstructure of oil-in-water emulsions stabilised with cheese powders. International Dairy Journal, 103, 104630.
- [15] da Silva, D.F., Tziouri, D., Ahrné, L., Bovet, N., Larsen, F.H., Ipsen, R., Hougaard, A.B. (2020). Reconstitution behavior of cheese powders: Effects of cheese age and dairy ingredients on wettability, dispersibility and total rehydration. Journal of Food Engineering, 270, 109763.
- [16] da Silva, D.F., Tziouri, D., Ipsen, R., Hougaard, A.B. (2020). Towards the manufacture of camembert cheese powder: Characteristics of cheese feeds without emulsifying salts. LWT-Food Science and Technology, 127, 109412.
- [17] da Silva, D.F., Wang, H., Czaja, T.P., van den Berg, F., Kirkensgaard, J.J.K., Ipsen, R., Hougaard, A.B. (2021). Effects of homogenization and pH adjustment of cheese feed without emulsifying salt on the physical properties of high fat cheese powder. Powder Technology, 378, 227-236.
- [18] Varming, C., Beck, T.K., Petersen, M.A., Ardö, Y. (2011). Impact of processing steps on the composition of volatile compounds in cheese powders. International Journal of Dairy Technology, 64(2), 197-206.
- [19] Varming, C., Andersen, L.T., Petersen, M.A., Ardö, Y. (2013). Flavour compounds and sensory characteristics of cheese powders made from matured cheeses. International Dairy Journal, 30(1), 19-28.
- [20] Guinee, T.P., (2011). Cheese as a Food Ingredient. In Encyclopedia of Dairy Sciences, Edited by J.W. Fuquay, P.F. Fox, P.L.H. McSweeney, Elsevier Academic Press, London, UK, 288.
- [21] West, S. (2007). Production of Flavours, Flavour Enhancers and Other Protein-Based Speciality Products. In Novel Enzyme Technology for Food Application, Edited by R. Rastall, CRC Press, Boca Raton, FL, USA, 183-204.
- [22] Erbay, Z., Salum, P., Gövce, G. (2017). Türkiye’de üretilen enzim modifiye süt ürünlerinin lipolitik ve proteolitik olgunlaşma düzeylerinin incelenmesi. Pamukkale University Journal of Engineering Sciences, 23(7), 919-925.
- [23] Hannon, J.A., Kilcawley, K.N., Wilkinson, M.G., Delahunty, C.M., Beresford, T.P. (2006). Production of ingredient-type cheddar cheese with accelerated flavor development by addition of enzyme-modified cheese powder. Journal of Dairy Science, 89(10), 3749-3762.
- [24] Soccol, C.R., Medeiros, A.B.P., Vandenberghe, L.P.S., Woiciechowski, A.L. (2007). Flavor Compounds Produced by Fungi, Yeasts, and Bacteria. Handbook of Food Products Manufacturing, Edited by Y.H. Hui, Wiley-Blackwell, West Sussex, UK, 179-191.
- [25] Farkye, N.Y., Arnold, M. (2008). A novel technology for making lowfat cheese. Symposium Dairy Foods: Advances in Low Fat Cheese Research, July 7-11, 2008, Indiana, USA, Joint Annual Meeting Abstracts, 154.
- [26] Amelia, I., Drake, M., Nelson, B., Barbano, D.M. (2013). A new method for the production of low-fat Cheddar cheese. Journal of Dairy Science, 96(8), 4870-4884.
- [27] Hassan, A.N., Awad, S., Mistry, V.V. (2007). Reduced fat process cheese made from young reduced fat cheddar cheese manufactured with exopolysaccharide-producing cultures. Journal of Dairy Science, 90(8), 3604-3612.
- [28] Miri, M.A., Habıbı Najafı, M.B. (2011). The effect of adding enzyme‐modified cheese on sensory and texture properties of low‐and high‐fat cream cheeses. International Journal of Dairy Technology, 64(1), 92-98.
- [29] Noronha, N., Cronin, D.A., O’Riordan, E.D., O’Sullivan, M. (2008). Flavouring of imitation cheese with enzyme-modified cheeses (EMCs): Sensory impact and measurement of aroma active short chain fatty acids (SCFAs). Food Chemistry, 106(3), 905-913.
- [30] Noronha, N., Cronin, D., O’Riordan, D., O’Sullivan, M. (2008). Flavouring reduced fat high fibre cheese products with enzyme modified cheeses (EMCs). Food Chemistry, 110(4), 973-978.
- [31] Habibi-Najafi, M.B., Sabouri, S., Mahallati, M.N. (2010). Formulation optimization of process cheese using enzyme modified cheese. International Conference of Food Science and Technology 2010, Mar 22-24, 2010, Chester, UK, Abstracts, 43.
- [32] Kilcawley, K.N., Wilkinson, M.G., Fox, P.F. (2000). A survey of the composition and proteolytic indices of commercial enzyme-modified Cheddar cheese. International Dairy Journal, 10(3), 181-190.
- [33] Kilcawley, K.N., Wilkinson, M.G., Fox, P.F. (2001). A survey of lipolytic and glycolytic end-products in commercial Cheddar enzyme-modified cheese. Journal of Dairy Science, 84(1), 66-73.
- [34] Hulin‐Bertaud, S., Kilcawley, K.N., Wilkinson, M.G., Delahunty, C.M. (2000). Sensory and compositional relationships between commercial Cheddar‐flavored enzyme‐modified cheeses and natural Cheddar. Journal of Food Science, 65(6), 1076-1082.
- [35] Salum, P., Erbay, Z., Selli, S. (2019). The compositional properties, proteolytic–lipolytic maturation parameters and volatile compositions of commercial enzyme‐modified cheeses with different cheese flavours. International Journal of Dairy Technology, 72(3), 416-426.
- [36] McSweeney, P.L. (2004). Biochemistry of cheese ripening. International Journal of Dairy Technology, 57(2‐3), 127-144.
- [37] Erbay, Z., Salum, P., Kilcawley, K.N. (2020). Enzyme Modified Cheese. Agents of Change: Enzymes in Milk and Dairy Products, Edited by A.L. Kelly, L.B. Larsen, Springer International Publishing (Verlag), New York, 785.
- [38] Wilkinson, A.G., Doolan, I.A., Kilcawley, K.N. (2011). Enzyme-Modified Cheese. Encyclopedia of Dairy Sciences, Edited by, J.W. Fuquay, P.F. Fox, P.L.H. McSweeney, Elsevier Academic Press, London, UK, 799.
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