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Z. Tarakçı, Yusuf Durmuş (2016)
Effects of packaging materials on some ripening characteristics of Tulum cheeseMljekarstvo, 66
F. Yilmaz, E. Dagdemir (2012)
The effects of beeswax coating on quality of Kashar cheese during ripeningInternational Journal of Food Science and Technology, 47
M. Sousa, Y. Ardö, P. McSweeney (2001)
Advances in the study of proteolysis during cheese ripeningInternational Dairy Journal, 11
(1996)
Cheese: physical, chemical, biochemical and nutritional aspects
U. Kamber (2007)
The Traditional Cheeses of Turkey: Cheeses Common to All RegionsFood Reviews International, 24
Yvonne Collins, P. McSweeney, M. Wilkinson (2003)
Lipolysis and free fatty acid catabolism in cheese: a review of current knowledgeInternational Dairy Journal, 13
A. Hayaloğlu, Mehmet Güven, Patrick Fox, P. McSweeney (2005)
Influence of starters on chemical, biochemical, and sensory changes in Turkish White-brined cheese during ripening.Journal of dairy science, 88 10
N. Koca, M. Metin (2004)
Textural, melting and sensory properties of low-fat fresh kashar cheeses produced by using fat replacersInternational Dairy Journal, 14
P. Fox, Mcsweeny P.L.H. (1996)
Proteolysis in cheese during ripeningFood Reviews International, 12
R. Case, R. Bradley, R. Williams (1985)
Chemical and physical methods
D. Voigt, F. Chevalier, J. Donaghy, M. Patterson, M. Qian, A. Kelly (2012)
Effect of high-pressure treatment of milk for cheese manufacture on proteolysis, lipolysis, texture and functionality of Cheddar cheese during ripeningInnovative Food Science and Emerging Technologies, 13
P. Fox, T. O'Connor, P. McSweeney, T. Guinee, N. O'Brien (1996)
Cheese: physical, biochemical, and nutritional aspects.Advances in food and nutrition research, 39
S. Kaya (2002)
Effect of salt on hardness and whiteness of Gaziantep cheese during short-term briningJournal of Food Engineering, 52
Z. Tarakçı, E. Küçüköner (2006)
CHANGES ON PHYSICOCHEMICAL, LIPOLYSIS AND PROTEOLYSIS OF VACUUMPACKED TURKISH KASHAR CHEESE DURING RIPENINGJournal of Central European Agriculture, 7
F. Yazıcı, .. M.Dervisoglu (2001)
Proteolysis in Golot CheesePakistan Journal of Biological Sciences, 4
M. Dervişoğlu, F. Yazıcı (2001)
Ripening changes of Kulek cheese in wooden and plastic containersJournal of Food Engineering, 48
N. Şahan, K. Yasar, A. Hayaloğlu, O. Karaca, A. Kaya (2007)
Influence of fat replacers on chemical composition, proteolysis, texture profiles, meltability and sensory properties of low-fat Kashar cheeseJournal of Dairy Research, 75
C. Everard, D. O'callaghan, T. Howard, C. O’Donnell, E. Sheehan, C. Delahunty (2006)
RELATIONSHIPS BETWEEN SENSORY AND RHEOLOGICAL MEASUREMENTS OF TEXTURE IN MATURING COMMERCIAL CHEDDAR CHEESE OVER A RANGE OF MOISTURE AND pH AT THE POINT OF MANUFACTUREJournal of Texture Studies, 37
U. Bütikofer, M. Rüegg, Y. Ardö (1993)
Determination of Nitrogen Fractions in Cheese: Evaluation of a Collaborative StudyLwt - Food Science and Technology, 26
T. Rank, R. Grappin, N. Olson (1985)
Secondary Proteolysis of Cheese During Ripening: A ReviewJournal of Dairy Science, 68
Tesfemariam Berhe, R. Ipsen, E. Seifu, M. Kurtu, Mitiku Eshetu, E. Hansen (2018)
Comparison of the acidification activities of commercial starter cultures in camel and bovine milkLwt - Food Science and Technology, 89
J. Lucey, Mark Johnson, D. Horne (2003)
Invited review: perspectives on the basis of the rheology and texture properties of cheese.Journal of dairy science, 86 9
T. Christensen, A. Bech, H. Werner (1991)
Methods for crude fractionation (extraction and precipitation) of nitrogen components in cheeseBulletin. International Dairy Federation
M. Johnson, E. Marth (1989)
Characteristics of Cheddar cheese made with mutant strains of lactic streptococci as adjunct sources of enzymesMilchwissenschaft-milk Science International, 44
Ö. Çelik, Z. Tarakçı (2017)
The effects of starter cultures on chemical, biochemical and sensory properties of low‐fat Tulum cheeses during ripeningInternational Journal of Dairy Technology, 70
A. Hayaloğlu, M. Güven, P. Fox (2002)
Microbiological, biochemical and technological properties of Turkish White cheese ‘Beyaz Peynir’International Dairy Journal, 12
Bulletin of IDF, 261
K. Yasar, N. Güzeler (2011)
Effects of coagulant type on the physicochemical and organoleptic properties of Kashar cheeseInternational Journal of Dairy Technology, 64
Sun-Young Park, M. Yoo, H. Paik, Sang-Dong Lim (2017)
Production of benzoic acid as a natural compound in fermented skim milk using commercial cheese starter.Journal of dairy science, 100 6
Musa Yalman, O. Güneşer, Y. Yuceer (2017)
Evaluation of Some Physical, Chemical and Sensory Properties of Kasar Cheese and Its Processed and Analogue TypesTarim Bilimleri Dergisi-journal of Agricultural Sciences, 23
S.‐Y. Kim, Sundaram Gunasekaran, Norman Olson (2004)
Combined use of chymosin and protease from Cryphonectria parasitica for control of meltability and firmness of cheddar cheese.Journal of dairy science, 87 2
Y. Tunçtürk, H. Coşkun (2007)
The Effect of Homogenized Lactic Cultures on The Development of Proteolysis in Kashar CheeseFood Science and Technology Research, 13
R. Dave, P. Sharma, D. McMahon (2003)
Melt and rheological properties of Mozzarella cheese as affected by starter culture and coagulating enzymesLe Lait, 83
D. Sert, A. Ayar, N. Akın (2007)
The effects of starter culture on chemical composition, microbiological and sensory characteristics of Turkish Kaşar Cheese during ripeningInternational Journal of Dairy Technology, 60
Riza Temizkan, K. Yasar, A. Hayaloğlu (2014)
Changes during ripening in chemical composition, proteolysis, volatile composition and texture in Kashar cheese made using raw bovine, ovine or caprine milkInternational Journal of Food Science and Technology, 49
A. Panghal, R. Patidar, S. Jaglan, Navnidhi Chhikara, S. Khatkar, Yogesh Gat, N. Sindhu (2018)
Whey valorization: current options and future scenario – a critical reviewNutrition & Food Science, 48
J. Salji, M. Kroger (1981)
Proteolysis and Lipolysis in Ripening Cheddar Cheese Made with Conventional Bulk Starter and with Frozen Concentrated Direct‐to‐the‐Vat Starter CultureJournal of Food Science, 46
F. Yangilar, Pınar Yıldız (2016)
Casein/natamycin edible films efficiency for controlling mould growth and on microbiological, chemical and sensory properties during the ripening of Kashar cheese.Journal of the science of food and agriculture, 96 7
Seong-A. Cho, Kee-sung Kim, Sang-Dong Lim (2012)
Effects of Mozzarella Cheese Manufactured by S. macedonicus LC743 on the Immune Status of MouseKorean Journal for Food Science of Animal Resources, 32
R. López-Fandiño, Y. Ardö (1991)
Effect of heat treatment on the proteolytic/peptidolytic enzyme system of a Lactobacillus delbrueckii subsp. bulgaricus strainJournal of Dairy Research, 58
B. Bekele, E. Hansen, Mitiku Eshetu, R. Ipsen, Y. Hailu (2019)
Effect of starter cultures on properties of soft white cheese made from camel (Camelus dromedarius) milk.Journal of dairy science, 102 2
O. Celik, Sertap Kurt, Busra Tufenk, Z. Tarakçı (2018)
Efficacy of starter culture application using immersion technique on the characteristics of cooked-curd cheeses: Kashar cheese sampleLWT
U. Kamber, G. Terzi (2007)
The Traditional Cheeses of Turkey: Middle and Eastern Black Sea RegionFood Reviews International, 24
M. Sousa, F. Malcata (1997)
Comparative biochemical evolution during ripening of bovine, ovine and caprine cheeses manufactured with extracts of flowers of Cynara cardunculusZeitschrift für Lebensmitteluntersuchung und -Forschung A, 205
The purpose of this study was to investigate the chemical, textural and sensory properties of some starter cultures fruit-added Golot cheese.Design/methodology/approachSix types of Golot cheeses were produced in this study. While the control sample contained no starter cultures, five different starter culture combinations (GS1: Streptococcus thermophilus, Lactococcus lactis subsp. cremoris, L. lactis subsp. lactis and Lactobacillus bulgaricus; GS2: S. thermophilus and L. bulgaricus; GS3: S. thermophilus; GS4: S. thermophilus and Lactobacillus helveticus; and GS5: S. thermophilus, L. lactis subsp. cremoris and L. lactis subsp. lactis) were applied to the other cheese samples using an immersion technique. Then, all cheeses were vacuum-packed and ripened at 4 ± 1°C for three months and their chemical, biochemical, sensory and textural analyses were performed on the 2nd, 15th, 30th, 60th and 90th days of ripening.FindingsResults indicated that generally starter cultures have positive effects on the chemical, biochemical and sensory properties of Golot cheese. Considering the final values, the addition of starter cultures enhanced the ripening index of Golot cheeses (8.4%–9.2%), except the GS3 (7.4%), compared to the control (8.1%). At the end of the ripening period, meltability values of GS4 (16.5 mm) cultured cheeses were higher than those of other cultured cheeses (13.0–15.5 mm) and control cheese (14.5 mm). While lipolysis values were low in fresh cheese, it increased during ripening. Overall, GS3 (2.46 acid degree value [ADV]) and GS4 (2.40 ADV) had the highest lipolysis rate, while GS1 (2.14 ADV) had the lowest (p = 0.07). Electrophoretograms indicated that the highest fragmentation of α- and ß-casein occurred in GS5 (48.43%) and GS1 (44.24%), respectively. Also, GS5 was the most appreciated and preferred cheese in terms of sensory. Regarding texture, hardness, cohesiveness, adhesiveness, springiness and gumminess values were determined to be statistically important in terms of ripening time and cheese variety (p < 0.01).Originality/valueConsequently, all starters had a positive impact on Golot cheese samples and among all S. thermophilus and L. helveticus starter were determined to be the most applicable one considering ripening, texture, sensory and melting properties.
Nutrition & Food Science – Emerald Publishing
Published: Jun 2, 2021
Keywords: Texture; Proteolysis; Lipolysis; Meltability; Pasta filata
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