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Properties of aseptically packed ultra-high-temperature milk: II. Molecular weight changes of the casein components during storage

Published online by Cambridge University Press:  01 June 2009

A. T. Andrews  and
G. C. Cheeseman
A. T. Andrews
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading, RG2 9AT
G. C. Cheeseman
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading, RG2 9AT
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Summary

Storage of aseptically packed ultra-high-temperature (UHT) milk has been shown to be accompanied by pronounced changes in the molecular weight distribution of the pH 4·6 insoluble casein. These changes were both time-dependent and temperature-dependent, proceeding much more rapidly at 37 °C than at 30 °C, but even at 4 °C the changes were considerable. The proportions of high molecular weight material present before and after storage have been studied by gel filtration in dissociating solvents using Sephadex G-200. Measurements have also been made on casein material isolated from in-bottle sterilized milks and canned evaporated milk for comparison. The results of gel filtration have been compared with sedimentation coefficients recorded by ultracentrifugation and with changes in the content of amino groups titratable with trinitrobenzene-sulphonic acid. The results are compatible with the suggestion that the Maillard reaction occurred at ambient temperatures, and over a period of several months led to browning and sediment formation due to covalent cross-linking of polypeptide chains. The implications of this are discussed with reference to spoilage of UHT milk on storage and the phenomenon of gelation.

Type
Research Article
Information
Journal of Dairy Research , Volume 39 , Issue 3 , October 1972 , pp. 395 - 408
Copyright
Copyright © Proprietors of Journal of Dairy Research 1972

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References

REFERENCES

Andrews, A. T. & Cheeseman, G. C. (1971). Journal of Dairy Research 38, 193.CrossRefGoogle Scholar
Burton, H. (1969). Dairy Science Abstracts 31, 287.Google Scholar
Crestfield, A. M., Moore, S. & Stein, W. H. (1963). Journal of Biological Chemistry 238, 622.Google Scholar
Habeeb, A. F. S. A. (1966). Analytical Biochemistry 14, 328.CrossRefGoogle Scholar
Hodge, J. E. (1953). Journal of Agricultural and Food Chemistry 1, 928.CrossRefGoogle Scholar
Maillard, L. C. (1912). Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences 154, 66.Google Scholar
Reynolds, T. M. (1963). Advances in Food Research 12, 1.Google Scholar
Reynolds, T. M. (1965). Advances in Food Research 14, 167.Google Scholar
Samel, R., Weaver, R. W. V. & Gammack, D. B. (1971). Journal of Dairy Research 38, 323.CrossRefGoogle Scholar
Weber, K. & Osborn, M. (1969). Journal of Biological Chemistry 244, 4406.Google Scholar