Free access
Issue
Lait
Volume 83, Number 1, January-February 2003
Page(s) 61 - 77
DOI http://dx.doi.org/10.1051/lait:2002050

References

  1. Alverez R.J., Expectations of Italian cheese in the pizza industry, in: 23rd Proceeding Annual Marschall, Invitational Italian Cheese Seminar, Marschall Products-Miles Laboratories Inc., Madison, WI, USA Sept. 16-18, 1986, p. 130.
  2. AOAC, Official Methods of Analysis, 17th ed., AOAC Int., Gaithersburg, MD, USA, 2000.
  3. Atherton H.V., Newlander J.A., Chemistry and testing of dairy products, 4th ed., AVI Publishing Co. Inc., Westport, CT, USA, 1977.
  4. Bogenrief D.D., Olson N.F., Hydrolysis of b-casein increases Cheddar cheese meltability, Milchwissenschaft 50 (1995) 678-682.
  5. Broadbent J.R., Strickland M., Weimer B.C., Johnson M.E., Steele J.L., Peptide accumulation and bitterness in Cheddar cheese made using single-strain Lactococcus lactis starters with distinct proteinase specificities, J. Dairy. Sci. 81 (1998) 327-337.
  6. Creamer L.K., Water absorption by renneted casein micelles, Milchwissenschaft 40 (1985) 589-591.
  7. Creamer L.K., Olson N.F., Rheological evaluation of maturing Cheddar cheese, J. Food Sci. 47 (1982) 631-636, 646.
  8. Creamer L.K., Lawrence R.C., Gilles J., Effect of acidification of cheese milk on the resultant Cheddar cheese, N.Z.J. Dairy Sci. Technol. 20 (1985) 185-203.
  9. Dave R.I., McMahon D.J., Oberg C.J., Broadbent J.R., Influence of coagulant concentration on proteolysis, meltability and rheology of 0, 10 and 20% fat containing Mozzarella cheeses made using direct acidification, J. Dairy Sci. (2003) In Press.
  10. de Jong L., Protein breakdown in soft cheese and its relation to consistency. 2. The influence of the rennet concentration, Neth. Milk Dairy J. 31 (1977) 314-327.
  11. Diefes H.A., Rizvi S.S.H., Bartsch J.A., Rheological behaviour of frozen and thawed low moisture part-skim Mozzarella cheese, J. Food Sci. 58 (1993) 764-769.
  12. Dulley J.R., The contribution of rennet and starter enzymes to proteolysis in cheese, Aust. J. Dairy Technol. 29 (1974) 65-69.
  13. Farkye N.L., Kiely L.J., Allshouse R.D., Kindstedt P.S., Proteolysis in Mozzarella cheese during refrigerated storage, J. Dairy Sci. 74 (1991) 1433-1438.
  14. Fecera R.M., Oberg C.J., McMahon D.J., Effect of proteolytic adjunct cultures on the physical properties of low fat Mozzarella cheese, in: Annual Meeting, Institute of Food Technologists, Anaheim, CA, USA, June 3-7, 1995.
  15. Fife R.L., McMahon D.J., Oberg C.J., Functionality of low fat Mozzarella cheese, J. Dairy Sci. 79 (1996) 1903-1910.
  16. Fox P.F., Guinee T.P., Cogan T.M., McSweeney P.L.H., Cheese rheology and texture, in: Fundamentals of Cheese Science, Aspen Publishers, Inc., Gaithersburg, MD, USA, 2000, pp. 305-333.
  17. Frey J.P., Marth E.H., Johnson M.E., Olson N.F., Peptidases and proteases of lactobacilli associated with cheese, Milchwissenschaft 41 (1986) 622-624.
  18. Hickey M.W., Hillier A.J., Jago G.R., Peptidase activity in lactobacilli, Aust. J. Dairy Technol. 38 (1983) 118-123.
  19. Holmes D.G., Duersch J.W., Ernstrom C.A., Distribution of milk clotting enzymes between curd and whey and their survival during Cheddar cheesemaking, J. Dairy Sci. 60 (1977) 862-869.
  20. Hong Y.H., Yun J.J., Barbano D.M., Larose K.L., Kindstedt P.S., Mozzarella cheese: Impact of three commercial strains on composition, proteolysis and functional properties, Aust. J. Dairy Technol. 53 (1998) 163-169.
  21. Kindstedt P.S., Functional properties of Mozzarella cheese on pizza: a review, Cult. Dairy Prod. J. 26 (3) (1991) 27-31.
  22. Kindstedt P.S., Effect of manufacturing factors, composition, and proteolysis on the functional characteristics of Mozzarella cheese, Crit. Rev. Food Sci. Nutr. 33 (1993) 167-187.
  23. Kindstedt P.S., Kosikowski F.V., Measurement of sodium chloride in cheese by a simple sodium ion electrode method, J. Dairy Sci. 67 (1984) 879-883.
  24. Kosikowski F.V., Mistry V.V., Analysis determination of soluble protein in cheese (Kjeldahl), in: Kosikowski F.V. (Ed.), Cheese and Fermented Milk Foods, Vol. II: Procedures and Analysis, 3rd ed. L. L. C., Westport, CT, USA 1997, pp. 223-224.
  25. Larsson K.I., Andren A., Affinity between chymosin and individual caseins at varying pH-values, Int. Dairy J. 7 (1997) 615 -618.
  26. McMahon D.J., Oberg C.J., Influence of fat, moisture, and salt on functional properties of Mozzarella cheese, Aust. J. Dairy Technol. 53 (1998) 98-101.
  27. McMahon D.J., Oberg C.J., Deconstructing Mozzarella, Dairy Ind. Int. 63 (1999) 23-26.
  28. Mistry V.V., Anderson D.L., Composition and microstructure of commercial full-fat and low-fat cheeses, Food Struct. 12 (1993) 259-266.
  29. Muthukumarappan K., Wang Y.C., Gunasekaran S., Modified Schreiber test for evaluation of Mozzarella cheese meltability, J. Dairy Sci. 82 (1999) 1068-1071.
  30. Oberg C.J., Broadbent J.R., Thermophilic starter cultures: another set of problems, J. Dairy Sci. 76 (1993) 2392-2406.
  31. Oberg C.J., Wang A., Moyes L.V., Brown R.J., Richardson G.H., Effects of proteolytic activity of thermolactic cultures on physical properties of Mozzarella cheese, J. Dairy Sci. 74 (1991) 389-397.
  32. Oberg C.J., Merrill R.K., Moyes L.V., Brown R.J., Richardson G.H., Effects of Lactobacillus helveticus culture on physical properties of Mozzarella cheese, J. Dairy Sci. 74 (1991) 4101-4107.
  33. O'Keeffe A.M., Fox P.F., Daly C., Proteolysis in Cheddar cheese: Role of coagulant and starter bacteria, J. Dairy Res. 45 (1978) 465-477.
  34. Olson N.F., Designing cheeses to meet market demands, Proc. Bienn. Cheese Ind. Conf. Utah State University, Logan, UT, USA, Aug. 20-22, 1996 (unnumbered).
  35. Pilcher S.W., Kindstedt P.S., Survey of Mozzarella cheese quality at restaurant end use, J. Dairy Sci. 73 (1990) 1644-1647.
  36. Poduval V.S., Mistry V.V., Manufacture of reduced fat Mozzarella cheese using ultrafiltered sweet buttermilk and homogenized cream, J. Dairy Sci. 82 (1999) 1-9.
  37. Radke-Mitchell L., Sandine W.E., Associative growth and differential enumeration of Streptococcus thermophilus and Lactobacillus bulgaricus: a review, J. Food Protect. 47 (1984) 245-248.
  38. Rowney M., Roupas P., Hickey M.W., Everett D.W., Factors affecting the functionality of Mozzarella cheese, Aust. J. Dairy Technol. 54 (1999) 94-102.
  39. SAS® User's Guide: Stastics, version 6.0, SAS Inst., Inc., Cary, NC, 1990.
  40. Thunnel R.K., Duersch J.W., Ernstrom C.A., Thermal inactivation of residual milk clotting enzymes in whey, J. Dairy Sci. 62 (1979) 373-377.
  41. Tunick M.H., Mackey K.L., Shieh J.J., Smith P.W., Cooke P., Malin E.L., Rheology and microstructure of low-fat Mozzarella cheese, Int. Dairy J. 3 (1993) 649-662.
  42. US Environmental Protection Agency, Method 6010a (Revision 1): Inductively coupled plasma-atomic emission spectroscopy, in: Test Methods for Evaluating Solid Waste, Vol. 1A: Laboratory Manual Physical/Chemical Methods, Office of Solid Waste and Emergency Response, US Environ. Prot. Agency, Washington, DC, USA, 1992.
  43. Vanderpoorten R., Weckx M., Breakdown of casein by rennet and microbial milk-clotting enzymes, Neth. Milk Dairy J. 26 (1972) 47-59.
  44. Visser S., Proteolytic enzymes and their action on milk proteins, Neth. Milk Dairy J. 35 (1981) 65-88.
  45. Wang Y.C., Muthukumarappan K., Ak M.M., Gunasekaran S., A device for evaluating melt/flow characterictics of cheeses, J. Text. Stud. 29 (1998) 43-55.
  46. 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.
  47. Yun J.J., Kiely L.J., Kindstedt P.S., Barbano D.M., Mozzarella cheese: impact of milling pH on functional properties, J. Dairy Sci. 76 (1993) 3639-3647.
  48. Yun J.J., Barbano D.M., Kindstedt P.S., Mozzarella cheese: impact of coagulant type on chemical composition and proteolysis, J. Dairy Sci. 76 (1993) 3648-3656.
  49. Yun J.J., Kiely L.J., Kindstedt P.S., Barbano D.M., Mozzarella cheese: impact of coagulant type on functional properties, J. Dairy Sci. 76 (1993) 3657-3663.
  50. Yun J.J., Barbano D.M., Larose K.L., Kindstedt P.S., Mozzarella cheese: impact of nonfat dry milk fortification on composition, proteolysis, and functional properties, J. Dairy Sci. 81 (1998) 1-8.

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