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Influence of fat replacers on chemical composition, proteolysis, texture profiles, meltability and sensory properties of low-fat Kashar cheese

Published online by Cambridge University Press:  26 October 2007

Nuray Sahan ,
Kurban Yasar ,
Ali A Hayaloglu ,
Oya B Karaca  and
Ahmet Kaya
Nuray Sahan
Affiliation:
Department of Food Engineering, Agricultural Faculty, Cukurova University, 01330 Adana, Turkey
Kurban Yasar
Affiliation:
Department of Food Engineering, Engineering-Architecture Faculty, Canakkale Onsekiz Mart University, 17100 Canakkale, Turkey
Ali A Hayaloglu*
Affiliation:
Department of Food Engineering, Engineering Faculty, Inonu University, 44280 Malatya, Turkey
Oya B Karaca
Affiliation:
Department of Food Engineering, Agricultural Faculty, Cukurova University, 01330 Adana, Turkey
Ahmet Kaya
Affiliation:
Department of Food Engineering, Engineering Faculty, Gaziantep University, 27310 Gaziantep, Turkey
*
*For correspondence; e-mail: [email protected]
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Abstract

Changes in chemical composition, proteolysis, lipolysis, texture, melting and sensory properties of low-fat Kashar cheese made with three different fat replacers (Simplesse® D-100, Avicel Plus® CM 2159 or β-glucan) were investigated throughout ripening. The low-fat cheeses made with fat replacers were compared with full- and low-fat counterparts as controls. Reduction of fat caused increases in moisture and protein contents and decreases in moisture-in-non fat substance and yield values in low-fat cheeses. The use of fat replacers in the manufacture of low-fat Kashar cheese increased water binding capacity and improved overall quality of the cheeses. Use of fat replacer in low-fat cheese making has enhanced cheese proteolysis. All samples underwent lipolysis during ripening and low-fat cheeses with fat replacers had higher level of total free fatty acid than full- or low-fat control cheeses. Texture attributes and meltability significantly increased with addition of fat replacers. Sensory scores showed that the full-fat cheese was awarded best in all stages of ripening and low-fat variant of Kashar cheeses have inferior quality. However, fat replacers except β-glucan improved the appearance, texture and flavour attributes of low-fat cheeses. When the fat replacers are compared, the low-fat cheese with Avicel Plus® CM 2159 was highly acceptable and had sensory attributes closest to full-fat Kashar cheese.

Keywords

Kashar cheeselow-fat cheesefat replacerproteolysistexturemeltability
Type
Research Article
Information
Journal of Dairy Research , Volume 75 , Issue 1 , February 2008 , pp. 1 - 7
Copyright
Copyright © Proprietors of Journal of Dairy Research 2007

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References

Bryant, A, Ustunol, Z & Steffe, J 1995 Texture of Cheddar cheese as influenced by fat reduction. Journal of Food Science 60 12161219CrossRefGoogle Scholar
Drake, MA & Swanson, BG 1995 Reduced and low-fat cheese technology. A review. Trends in Food Science and Technology 6 366369CrossRefGoogle Scholar
Drake, MA, Boylston, TD & Swanson, BG 1996 Fat mimetics in low-fat Cheddar cheese. Journal of Food Science 61 12671270CrossRefGoogle Scholar
Fenelon, MA & Guinee, TP 1997 The compositional, textural and maturation characteristics of reduced-fat Cheddar made from milk containing added Dairy Lo™. Milchwissenschaft 52 385389Google Scholar
Fenelon, MA & Guinee, TP 2000 Primary proteolysis and textural changes during ripening in Cheddar cheeses manufactured to different fat contents. International Dairy Journal 10 151158CrossRefGoogle Scholar
Fife, RL, McMahon, DJ & Oberg, CJ 1996 Functionality of low-fat Mozzarella cheese. Journal of Dairy Science 79 19031910CrossRefGoogle Scholar
Fox, PF, Guinee, TP, Cogan, TM & McSweeney, PLH 2000 Fundamentals of Cheese Sciences. Gaithershurg, Maryland: Aspen PublicationGoogle Scholar
Hayaloglu, AA, Guven, M, Fox, PF & McSweeney, PLH 2005 Influence of starters on chemical, biochemical, and sensory changes in Turkish White-brined cheese during ripening. Journal of Dairy Science 88 34603474CrossRefGoogle ScholarPubMed
Kahyaoglu, T, Kaya, S & Kaya, A 2005 Effect of fat reduction and curd dipping temperature on viscoelasticity, texture and appearance of Gaziantep cheese. Food Science and Technology International 11 191198CrossRefGoogle Scholar
Katsiari, MC & Voutsinas, LP 1994 Manufacture of low-fat Feta cheese. Food Chemistry 32 5360CrossRefGoogle Scholar
Kavas, G, Oysun, G, Kinik, O & Uysal, H 2004 Effect of some fat replacers on chemical, physical and sensory attributes of low-fat white pickled cheese. Food Chemistry 86 381388CrossRefGoogle Scholar
Koca, N & Metin, M 2004 Textural, melting and sensory properties of low-fat fresh Kashar cheeses produced by using fat replacers. International Dairy Journal 14 365373CrossRefGoogle Scholar
Konuklar, G, Inglett, GE, Felker, FC & Carriere, CJ 2004 Use of β-glucan hydrocolloidal suspension in the manufacture of low-fat Cheddar cheese: textural properties by instrumental methods and sensory panels. Food Hydrocolloids 18 535545CrossRefGoogle Scholar
Lawrence, RC, Creamer, LK & Gilles, J 1987 Texture development during cheese ripening. Journal of Dairy Science 70 17481760CrossRefGoogle Scholar
McMahon, DJ, Alleyne, MC, Fife, RL & Oberg, CJ 1996 Use of fat replacers in low fat Mozzarella cheese. Journal of Dairy Science 79 19111921CrossRefGoogle Scholar
Mistry, VV 2001 Low-fat cheese technology. International Dairy Journal 11 413422CrossRefGoogle Scholar
Pavia, M, Trujillo, AJ, Guamis, B & Ferragut, V 2000 Proteolysis in Manchego-type cheese salted by brine vacuum impregnation. Journal of Dairy Science 83 14411447CrossRefGoogle ScholarPubMed
Poduval, VS & Mistry, VV 1999 Manufacture of Reduced fat Mozzarella cheese using ultrafiltrated sweet buttermilk and homogenized cream. Journal Dairy Science 82 19CrossRefGoogle Scholar
Rodriguez, J 1998 Recent advances in the development of low-fat cheeses. Trends in Food Science and Technology 9 249254CrossRefGoogle Scholar
Romeih, EA, Michaelidou, A, Biliaderis, CG & Zerfiridis, GK 2002 Low-fat white-brine cheese made from bovine milk and two commercial fat mimetics: chemical, physical and sensory attributes. International Dairy Journal 12 525540CrossRefGoogle Scholar
Rudan, MA & Barbano, DM 1998 A model of Mozzarella cheese melting and browning during pizza baking. Journal of Dairy Science 81 23122319CrossRefGoogle Scholar
Rudan, MA, Barbano, DM & Kindstedt, PS 1998 Effect of fat replacer (Salatrim®) on chemical, composition, proteolysis, functionality, appearance, and yield of reduced fat Mozzarella cheese. International Dairy Journal 81 20772088Google Scholar
Rudan, M, Barbano, DM, Yun, JJ & Kindstedt, PS 1999 Effect of fat reduction on composition, proteolysis, functionality, and yield of Mozzarella Cheese. Journal Dairy Science 82 661662CrossRefGoogle ScholarPubMed
SAS® 1995 User's Guide: Statistics, Version 6.12 Edition. Cary, NC: SAS InstituteGoogle Scholar
Sipahioglu, O, Alvarez, VB & Solano-Lopez, C 1999 Structure, physico-chemical and sensory properties of feta cheese made with tapioca starch and lecithin as fat mimetics. International Dairy Journal 9 783789CrossRefGoogle Scholar
Stevens, A & Shah, NP 2002 Texturel and melting properties of Mozzarella cheese made with fat replacers. Milchwissenschaft 57 387390Google Scholar
Tunick, MH, Malin, EL, Smith, PW, Shien, JJ, Sullivan, BC, Mackey, KL & Holsinger, VH 1993 Proteolysis and rheology of low fat and full fat Mozzarella cheeses prepared from homogenized milk. Journal Dairy Science 76 36213628CrossRefGoogle Scholar
Volikakis, P, Biliaderis, CG, Vamvakas, C & Zerfiridis, GK 2004 Effects of a commercial oat-β-glucan concentrate on the chemical, physico-chemical and sensory attributes of a low-fat white-brined cheese product. Food Research International 37 8394CrossRefGoogle Scholar
Zalazar, CA, Zalazar, CS, Bernal, S, Bertola, N, Bevilacqua, A & Zaritzky, N 2002 Effect of moisture level and fat replacer on physicochemical, rheological and sensory properties of low fat soft cheese. International Dairy Journal 12 4550CrossRefGoogle Scholar
Zisu, B & Shah, NP 2005 Textural and functional changes in low-fat Mozzarella cheeses in relation to proteolysis and microstructure as influenced by the use of fat replacers, pre-acidification and EPS starter. International Dairy Journal 15 957972CrossRefGoogle Scholar