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Changes in the physical properties of ultra high temperature processed buffalo milk during storage

Published online by Cambridge University Press:  01 June 2009

Dinesh K. Sharma
Affiliation:
Dairy Microbiology Division, National Dairy Research Institute, Karnal 132 001, India
Deoki N. Prasad
Affiliation:
Dairy Microbiology Division, National Dairy Research Institute, Karnal 132 001, India

Summary

Buffalo milk collected within 4 h of milking was standardized (4·5% fat and 8·5% SNF) and processed in an ultra high temperature plant at 5 °C intervals. Changes in viscosity, free tyrosine and sedimentation were measured over 6 months at 15 and 30 °C. We suggest that an interaction probably occurred in the casein and whey proteins (β-lactoglobulin) and caused changes in the physical and chemical qualities of these milks during storage. Variations in the casein particle sizes were observed in the milks during storage by electron microscopy.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1990

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References

REFERENCES

Andrews, G. R. & Morant, S. V. 1987 Lactulose content, colour and the organoleptic assessment of ultra heat treated and sterilized milks. Journal of Dairy Research 54 493507CrossRefGoogle Scholar
Aoki, T., Suzuki, H. & Imamura, T. 1974 Formation of soluble casein in whey protein-free milk heated at high temperatures. Milchwissenschaft 29 589594Google Scholar
Cooper, T. G. 1977 The Tools of Biochemistry, pp. 5152. New York: John Wiley & SonsGoogle Scholar
Creamer, L. K. & Matheson, A. R. 1980 Effect of heat treatment on the proteins of pasteurized skim milk. New Zealand Journal of Dairy Science and Technology 15 3749Google Scholar
Davies, F. L., Shankar, P. A., Brooker, B. E. & Hobbs, D. G. 1978 A heat-induced change in the ultrastructure of milk and its effect on gel formation in yoghurt. Journal of Dairy Research 45 5358CrossRefGoogle Scholar
Eilers, H., Saal, R. N. J. & Van Der Waarden, M. 1947 Chemical and Physical Investigations on Dairy Products. Amsterdam: Elsevier.Google Scholar
Farah, Z. 1979 Changes in proteins in UHT heated milk. Milchwissenschaft 34 484487Google Scholar
Harvey, W. R. 1966 Least squares analysis of data with unequal sub-class numbers. Washington, DC: United States Department of Agriculture (ARS 20–8)Google Scholar
Jenness, R., Shipe, W. F. & Whitnah, C. H. 1965 Physical properties of milk. In Fundamentals of Dairy Chemistry pp. 339373 (Eds Webb, B. H. and Johnson, A. H.). Westport, CT: Avi Publishing Co.Google Scholar
Jeon, I. J. 1977 Identification of volatile flavor compounds and variables affecting the development of off-flavor in ultra-high-temperature processed sterile milk. Dissertation Abstracts International B 37 6044Google Scholar
Kocak, H. R. & Zadow, J. G. 1985 The effect of low-temperature-inactivation treatment on age gelation of UHT whole milk. Australian Journal of Dairy Technology 40 5358Google Scholar
Lowry, O. H., Rosebrough, N. J., Farr, A. L. & Randall, R. J. 1951 Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 193 265275CrossRefGoogle ScholarPubMed
Mohammad, K. S. & Fox, P. F. 1987 Heat-induced association-dissociation of casein micelles preceding coagulation. Journal of Dairy Research 54 377387CrossRefGoogle Scholar
Moller, A. B. 1981 Chemical changes in ultra heat treated milk during storage. Progress in Food and Nutrition Science 5 357368Google Scholar
Renner, E. 1974 Milch und Milchprodukte in der Ernährung des Menschen. Kempten: Volkswirtschaftlicher VerlagGoogle Scholar
Sharma, D. K. 1988 Microbiological studies on the UHT processed milks and subsequent conversion to an indigenous fermented product dahi (curd). Ph.D. thesis submitted to Kurukshetra UniversityGoogle Scholar