Hostname: page-component-77c89778f8-gq7q9 Total loading time: 0 Render date: 2024-07-17T10:32:28.241Z Has data issue: false hasContentIssue false
  • English
  • Français

Heat stability of milk: synergic action of urea and carbonyl compounds

Published online by Cambridge University Press:  01 June 2009

Samweul I. Shalabi  and
Patrick F. Fox
Samweul I. Shalabi
Affiliation:
Dairy and Food Chemistry Department, University College, Cork, Irish Republic
Patrick F. Fox
Affiliation:
Dairy and Food Chemistry Department, University College, Cork, Irish Republic
Get access Rights & Permissions [Opens in a new window]

Summary

Urea stabilizes milk to heat only in the presence of a carbonyl compound, such as a reducing sugar. Low molecular weight carbonyl compounds can increase stability in the absence of urea whereas larger molecules, e.g. hexoses and reducing disaccharides, cannot. However, the efficacy of all carbonyl compounds is increased considerably in the presence of urea. Aldehydes and ketones of similar molecular weights appear to be equally effective stabilizers. The optimum concentration of lactose in milk for stability was approximately 1% irrespective of urea concentration within the range 5–20 mM. However, modifying the lactose content of concentrated milks (approximately 8.5% protein) had little effect on heat stability.

Type
Original Articles
Information
Journal of Dairy Research , Volume 49 , Issue 2 , May 1982 , pp. 197 - 207
Copyright
Copyright © Proprietors of Journal of Dairy Research 1982

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Davies, D. T. & White, J. C. D. 1966 The stability of milk protein to heat. I. Subjective measurement of heat stability of milk. Journal of Dairy Research 33 6781CrossRefGoogle Scholar
Fox, P. F., Nash, B. M., Horan, T. J., O'Brien, J. & Morrissey, P. A. 1980 Effect of selected amides on heat-induced changes in milk. Journal of Dairy Research 47 211219CrossRefGoogle Scholar
Holt, C., Muir, D. D. & Sweetsur, A. W. M. 1978 a Seasonal changes in the heat stability of milk from creamery silos in south-west Scotland. Journal of Dairy Research 45 183190CrossRefGoogle Scholar
Holt, C., Muir, D. D. & Sweetsur, A. W. M. 1978 b The heat stability of milk and concentrated milk containing added aldehydes and sugars. Journal of Dairy Research 45 4752CrossRefGoogle Scholar
Kudo, S. 1980 Influence of lactose and urea on the heat stability of artificial milk systems. New Zealand Journal of Dairy Science & Technology 15 197200Google Scholar
Muir, D. D. & Sweetsur, A. W. M. 1976 The influence of naturally occurring levels of urea on the heat stability of bulk milk. Journal of Dairy Research 43 495499CrossRefGoogle Scholar
Muir, D. D. & Sweetsur, A. W. M. 1977 Effect of urea on the heat coagulation of the caseinate complex in skim-milk. Journal of Dairy Research 44 249257CrossRefGoogle Scholar
Muir, D. D. & Sweetsur, A. W. M. 1978 The effect of concentration on the heat stability of skim-milk. Journal of Dairy Research 45 3745CrossRefGoogle Scholar
Muir, D. D., Sweetsur, A. W. M. & Holt, C. 1979 The synergic effect of urea and aldehydes on the heat stability of concentrated skim-milk. Journal of Dairy Research. 46 381384CrossRefGoogle Scholar
Nickerson, T. A. 1974 In Fundamentals of Dairy Chemistry 2nd Edn pp. 273324. (Eds Webb, B. H., Johnson, A. H. and Alford, J. A.) Westport, Conn.: Avi Publishing Co. Inc.Google Scholar
Pyne, G. T. 1958 The heat coagulation of milk. II. Variations in sensitivity of casein to calcium ions. Journal of Dairy Research 25 467474CrossRefGoogle Scholar
Pyne, G. T. & McHenry, K. A. 1955 The heat coagulation of milk. Journal of Dairy Research 22 6068CrossRefGoogle Scholar
Robertson, N. H. & Dixon, A. 1969 The nitrogen fractions and the heat stability of bovine milk. Agroanimalia 1 141144Google Scholar
Sweetsur, A. W. M. & Muir, D. D. 1981 Role of cyanate ions in the urea-induced stabilization of the caseinate complex in skim-milk. Journal of Dairy Research 48 163166CrossRefGoogle Scholar
Sweetsur, A. W. M. & White, J. C. D. 1975 Studies on the heat stability of milk protein. III. Effect of heat-induced acidity in milk. Journal of Dairy Research 42 7388CrossRefGoogle Scholar