Free Access
Issue
Lait
Volume 81, Number 4, July-August 2001
Page(s) 463 - 474
DOI https://doi.org/10.1051/lait:2001145

References

1
Andrews A.T., Proteinases in normal bovine milk and their action on their caseins, J. Dairy Res. 50 (1983) 47-55.
2
Arnott D.R., Morris H.A., Combos C.A., Effect of certain chemical factors on the melting quality of process cheese, J. Dairy Sci. 41 (1957) 957-959.
3
Aston J.W., Giles J.E., Durward I.G, Dulley J.R., Effect of elevated ripening temperatures on proteolysis and flavour development in Cheddar cheese, J. Dairy Res. 52 (1985) 565-572.
4
Aston J.W., Frederick I.A., Durward I.G., Dulley J.R., The effect of elevated ripening temperatures on proteolysis and flavour development in Cheddar cheese.1. Higher initial storage temperatures, N.Z.J. Dairy Sci. Technol. 18 (1993) 145-151.
5
Aston J.W., Grieve P.A., Durward I.G., Dulley J.R., Proteolysis and flavour development in Cheddar cheeses subjected to accelerated ripening treatments, Aust. J. Dairy Technol. 39 (1993) 59-65.
6
Altemueller A.G., Rosenberg M., Monotoring proteolysis during ripening of full fat and low-fat Cheddar cheeses by reverse-phase HPLC, J. Food Sci. 61 (1996) 295-298.
7
Barbano D.M., Hong Y., Yun J.J., Larose K.L., Kindstedt P.S., Mozzarella cheese: Impact of three commercial culture strains on composition, yield, proteolysis, and functional properties, Proc. 33th Annu. Marschall Italian Cheese Sem. Madison, WI., 1995, pp. 42-55.
8
Barbano D.M., Renda A., Yun J.J., Kindstedt P.S., Contributions of coagulant, starter, and milk enzymes to proteolysis and browning in Mozzarella cheese, Proc. 31th Annu. Marschall Italian Cheese Sem. Madison, WI., 1993, pp. 65-79.
9
Blakesley R.W., Boezi J.A., A new staining technique for proteins in polyacrylamide gels using Coomassie Brilliant Blue G250, Anal. Biochem. 82 (1977) 580-581.
10
Bogenrief D.D., Olson N.F., Hydrolysis of $\beta$-casein increases Cheddar cheese meltability, Milchwissenschaft 50 (1995) 678-682.
11
Creamer L.K., Casein proteolysis in Mozzarella-type cheese, N.Z.J. Dairy Sci. Technol. 11 (1976) 131-132.
12
Cromie S.J., Giles J.E., Dulley J.R., Effect of elevated ripening temperatures on the microflora of Cheddar cheese, J. Dairy Res. 54 (1987) 69-76.
13
Desmazeaud M.J., Gripon J.C., General mechanism of protein breakdown during cheese ripening, Milchwissenschaft 33 (1977) 732-735.
14
Dulley J.R., Bovine milk protease, J. Dairy Res. 40 (1972) 1-9.
15
Farkye N.Y., Fox P.F., Preliminary study on the contribution of plasmin to Cheddar cheese ripening: cheeses containing plasmin inhibitor, 6-amino-hexanoic acid, J. Agric. Food Chem. 40 (1991) 786-788.
16
Fenelon M.A., Ryan M.C., Rea M.C., Guinee T.P., Ross R.P., Hill C., Harrington D., Elevated temperature ripening of reduced fat Cheddar made with or without Lacticin 3247-producing starter culture, J. Dairy Sci. 82 (1999) 10-22.
17
Folkertsma B., Fox P.F, McSweeney P.L.H., Accelerated ripening of cheese at elevated temperatures, Int. Dairy J. 6 (1996) 1117-1124.
18
Fox P.F., Proteolysis during cheese manufacture and ripening, J. Dairy Sci. 72 (1989) 1389-1410.
19
Fox P.F., Proteolysis in cheese during ripening, Food Rev. Int. 12 (1996) 477-509.
20
Fox P.F., Guinee T.P., Cogan T.M., McSweeney P.L.H., Fundamentals of Cheese Science. Aspen Publishers, Inc., Gaithersburg, MD, 2000, pp. 379-388.
21
Frederick I.A., Dulley J.R., The effect of elevated storage temperatures on the rheology of Cheddar cheese, N.Z.J. Dairy Sci. Technol. 19 (1984) 142-150.
22
Grappin R., Rank T.C., Olson N.F., Primary proteolysis of cheese proteins during ripening: a review, J. Dairy Sci. 68 (1985) 532-541.
23
Grufferty M.B., Fox P.F., Milk alkaline proteinase: a review, J. Dairy Res. 55 (1988) 609-631.
24
Guinee T.P., Wilkinson M.G., Mulholland E.O., Fox P.F., Influence of ripening temperature, added commercial enzymes and attenuated mutant (Lac-) Lactococcus lactis starter on the proteolysis and maturation of Cheddar cheese, Ir. J. Food Sci. Technol. 15 (1991) 28-52.
25
Guinee T.P., Mulholland E.O., Mullins C., Corcoran M.O., Effect of salting method on the composition, yield and functionality of low moisture Mozzarella cheese, Milchwissenschaft 55 (2000) 136-139.
26
Guinee T.P., Auty M.A.E., Fenelon M.A., The effect of fat on the rheology, microstructure and heat-induced functional characteristics of Cheddar cheese, Int. Dairy J. 10 (2000) 277-288.
27
Guinee T.P., Harrington D., Corcoran M.O., Mulholland E.O., Mullins C., The composition and functional properties of commercial mozzarella, cheddar and analogue pizza cheese, Int. J. Dairy Technol. 53 (2000) 51-56.
28
Hurley M.J., O'Driscoll B.M., Kelly A.L., McSweeney P.L.H., Novel assay for the determination of residual coagulant activity in cheese, Int. Dairy J. 9 (1999) 553-558.
29
Jarrett W.D., Aston J.W., Dulley J.R., A simple method for estimating free amino acids in Cheddar cheese, Aust. J. Dairy Technol. 38 (1982) 55-58.
30
Kindstedt P.S., Effect of manufacturing factors, composition and proteolysis on the functional characteristics of Mozzarella cheese, Crit. Rev. Food Sci. Nutr. 34 (1993) 167-187.
31
Kindstedt P.S., Factors affecting the functional characteristics of unmelted and melted Mozzarella cheese, in: Malin E.L., Tunick M.H. (Eds), Chemistry of Structure-Function Relationships in Cheese, Plenum Press, New York, 1995, pp. 28-42.
32
Kindstedt P.S., Guo M.R., Recent developments in the science and technology of pizza cheese, Review. Aust J. Dairy Technol. 52 (1997) 42-45.
33
Madsen J.S., Qvist K.B., The effect of enzymes on meltability of Mozzarella cheese manufactured by ultrafiltration, Lait 78 (1998) 259-282.
34
McMahon D.J., Oberg C.J., McManus W., Functionality of Mozzarella cheese, Aust. J. Dairy Technol. 48 (1993) 99-104.
35
Mulvihill D.M., Fox P.F., Proteolysis of bovine $\beta$-casein by chymosin: Influence of pH, urea and sodium chloride, Ir. J. Food Technol. 2 (1978) 136-140.
36
Mulvihill D.M., Fox P.F., Proteolytic specificity of chymosins and pepsins on $\beta$-caseins, Milchwissenschaft 35 (1979) 680-683.
37
Mulvihill D.M., Fox P.F., Proteolysis of $\alpha_{\rm s1}$-casein by chymosin in dilute NaCl solutions and in Cheddar cheese, Ir. J. Food Sci. Technol. 4 (1980) 13-23.
38
Phelan J.A., Guiney J., Fox P.F., Proteolysis of $\beta$-casein in Cheddar cheese, J. Dairy Res. 41 (1973) 105-112.
39
SAS® Users Guide: Statistics, Version 6.12 Edition. SAS Inst., Inc., Cary, NC, 1995, pp. 98-103.
40
Shakeel-Ur-Rehman, McSweeney P.L.H., Fox P.F., Protocol for the manufacture of miniature cheeses, Lait 78 (1998) 607-620.
41
Singh H., Creamer L.K., A sensitive quantitative assay for milk coagulants in cheese and whey products, J. Dairy Sci. 73 (1990) 1158-1165.
42
Tunick M.H., Malin E.L., Smith P.W., Holsinger V.H., Effects of skim milk homogenization on proteolysis and rheology of Mozzarella cheese, Int. Dairy J. 5 (1995) 483-491.
43
van Hooydonk A.C.M., Koster P.G., Boerrigter I.J., The renneting properties of heated milk, Neth. Milk Dairy J. 41 (1987) 3-18.
44
Visser S, Slangen K.J., On the specificity of chymosin (rennin) in its action on bovine $\beta$-casein, Neth. Milk Dairy J. 32 (1977) 16-31.
45
Walsh C.D., Guinee T.P., Harrington D., Mehra R., Murphy J., Fitzgerald R.J., Cheesemaking, compositional and functional characteristics of low moisture part-skim Mozzarella cheese from bovine milks containing $\kappa$-casein AA, AB or BB genetic variants, J. Dairy Res. 65 (1998) 307-315.
46
Wilkinson M., Acceleration of cheese ripening, in: Fox P.F. (Ed.), Cheese: Chemistry, Physics and Microbiology, 2nd edn., Vol. 1, Chapman and Hall Publishers, London, 1993, pp. 523-555.
47
Wilkinson M.G., Guinee T.P., O'Callaghan D.M., Fox P.F., Effects of commercial enzymes on proteolysis and ripening in Cheddar cheese, Lait 72 (1992) 469-479.
48
Yun J.J., Barbano D.M., Kindstedt P.S., Mozzarella cheese: Impact of milling pH on chemical composition and proteolysis, J. Dairy Sci. 76 (1993) 3629-3638.
49
Yun J.J., Kiely L.J., Barbano D.M., Kindstedt P.S., Mozzarella cheese: Impact of cooking temperature on chemical composition, proteolysis and functional properties, J. Dairy Sci. 76 (1993) 3664-3673.

Abstract

Copyright INRA, EDP Sciences