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The pattern of release of free fatty acids from milk fat under the action of intrinsic and added lipases

Published online by Cambridge University Press:  01 June 2009

E. B. Hemingway
Affiliation:
Division of Agricultural Chemistry, School of Agricultural Sciences, University of Leeds
G. H. Smith
Affiliation:
Division of Agricultural Chemistry, School of Agricultural Sciences, University of Leeds
J. A. F. Rook
Affiliation:
Division of Agricultural Chemistry, School of Agricultural Sciences, University of Leeds

Summary

(1) The rate of release of fatty acids from milk by porcine pancreatic lipase was studied as a model system for the development of lipase taint. The rate was low initially but then increased logarithmically and later declined. Addition of milk which had been subjected to the action of lipase and then boiled to inactivate the enzyme enhanced fatty acid release. An extract containing monoglycerides from lipolysed milk had a similar action whereas an extract of free fatty acids had an effect mainly in the early stages, increasing the initial rate. Addition of Ca2+, which accelerated lipolysis of fresh milk, enhanced the action of fatty acids and depressed that of monoglycerides.

(2) In the early stages of lipolysis there was a preferential release of short-chain fatty acids and a high proportion of these passed into the aqueous phase. These effects were more pronounced at low temperature and at acid to neutral pH. At alkaline pH a greater proportion of the short-chain acids was present in the aqueous phase but the total release of these acids was less.

(3) Fresh milks differed in their response to ‘aeration’ and storage at 4°C. In those in which taint was induced there was a considerable release of fatty acids in response to aeration, and a further release and also a redistribution between the aqueous and fat phases during storage. No relationship was apparent between the amount of fatty acids released and the initial fatty acid content.

(4) The findings are discussed in relation to the development of lipase taint in commercial milks.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1970

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References

REFERENCES

Duthie, A. H. (1965). J. Dairy Sci. 48, 1385.CrossRefGoogle Scholar
Farquhar, J. W., Insull, W. Jr, Rosen, P., Stoffel, W. & Ahrens, E. H. Jr (1959). Nutr. Rev. 17, Suppl.Google Scholar
Folch, J., Lees, M. & Sloane Stanley, G. H. (1957). J. biol. Chem. 226, 497.Google Scholar
Freeman, C. P. & West, D. (1966). J. Lipid Res. 7, 324.CrossRefGoogle Scholar
Harper, W. J., Gould, I. A. & Hankinson, C. L. (1961). J. Dairy Sci. 44, 1764.CrossRefGoogle Scholar
Hemingway, E. B., Smith, G. H. & Rook, J. A. F. (1970). J. Soc. Dairy Technol. (In the Press.)Google Scholar
Kintner, J. A. & Day, E. A. (1965). J. Dairy Sci. 48, 1575.CrossRefGoogle Scholar
Kosikowski, F. V. (1959). 15th Int. Dairy Congr., London 3, 1545.Google Scholar
Metcalfe, L. D. & Schmitz, A. A. (1961). Analyt. Chem. 33, 363.CrossRefGoogle Scholar
Parry, R. M. J., Chandan, R. C. & Shahani, K. M. (1966). J. Dairy Sci. 49, 356.Google Scholar
Storry, J. E., Rook, J. A. F. & Hall, A. J. (1967). Br. J. Nutr. 21, 425.CrossRefGoogle Scholar