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Antioxidant activity of casein and Maillard reaction products from casein-sugar mixtures

Published online by Cambridge University Press:  01 June 2009

Barry J. McGookin  and
Mary-Ann Augustin
Barry J. McGookin
Affiliation:
CSIRO Division of Food Processing, Dairy Research Laboratory, Highett, Victoria 3190, Australia
Mary-Ann Augustin
Affiliation:
CSIRO Division of Food Processing, Dairy Research Laboratory, Highett, Victoria 3190, Australia
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Summary

The antioxidant activity of casein and Maillard reaction products obtained by reaction of casein with glucose or lactose was studied. Antioxidant activity was evaluated in a model System containing methyl linoleate with haemoglobin as a pro-oxidant. Casein was antioxidative and heating casein in the presence of glucose or lactose resulted in enhancement of antioxidant activity. The development of antioxidant activity in reacted casein–sugar mixtures was determined as a function of initial casein and sugar concentration. The observed antioxidant activity of reacted casein–sugar mixtures was due to casein itself and Maillard reaction products resulting from reacting casein with sugar.

Type
Original Articles
Information
Journal of Dairy Research , Volume 58 , Issue 3 , August 1991 , pp. 313 - 320
Copyright
Copyright © Proprietors of Journal of Dairy Research 1991

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References

REFERENCES

Allen, J. C. & Wrieden, W. L. 1982 Influence of milk proteins on lipid oxidation in aqueous emulsion. I. Casein, whey protein and α-lactalbumin. Journal of Dairy Research 49 239248Google Scholar
Ashoor, S. H. & Zent, J. B. 1984 Maillard browning of common amino acids and sugars. Journal of Food Science 49 12061207Google Scholar
Bishov, S. J. & Henick, A. S. 1972 Antioxidant effect of protein hydrolyzates in a freeze-dried model System. Journal of Food Science 37 873875Google Scholar
Dugan, L. R. 1980 Natural antioxidants. In Autoxidation in Food and Biological Systems pp. 261282 (Eds Simic, M. G. and Karel, M.) New York: Plenum PressGoogle Scholar
Eichner, K. 1980 Antioxidative effect of Maillard reaction intermediates. In Autoxiitation in Food and Biological Systems pp. 367385 (Eds Simic, M. G. and Karel, M.) New York: Plenum PressGoogle Scholar
Eriksson, C. E. 1982 Lipid oxidation catalysts and inhibitors in raw materials and proeessed foods. Food Chemistry 9 319CrossRefGoogle Scholar
Hwang, C. & Kim, D. 1973 The antioxidative activity of extracts from varions stages of Maillard-type browning reaction mixture. Korean Journal of Food Science and Technology 5 8488 (Chemical Abstracts 79, 114189e)Google Scholar
Karel, M., Tannenbaum, S. R., Wallace, D. H. & Maloney, H. 1966 Autoxidation of methyl linoleate in freeze-dried model Systems. III. Effects of added amino acids. Journal of Food Science 31 892896Google Scholar
Kirigaya, N., Kato, H. & Fujimaki, M. 1968 Studies on antioxidant activity of nonenzyinic browning reaction products. I Relations of color intensity and reductones with antioxidant activity of browning reaction products. Agricultural and Biological Chemistry 32 287290Google Scholar
Laakso, S. 1984 Inhibition of lipid peroxidation by casein. Evidence of molecular encapsulation of 1,4- pentadiene fatty acids. Biochimica et Biophysica Acta 792 1115Google Scholar
Lingnert, H. 1979 Antioxidative effect of Maillard reaction products SIK Rapport No. 458Google Scholar
Lingnert, H. & Eriksson, C. E. 1980 Antioxidative Maillard reaction products. II. Products from sugars and peptides or protein hydrolysates. Journal of Food Processing and Preservation 4 173181CrossRefGoogle Scholar
Manson, W. & Cannon, J. 1978 The reaction of αs1- and β-casein with ferrous ions in the presence of oxygen. Journal of Dairy Research 45 5967Google Scholar
Marcuse, R. 1962 The effect of some amino acids on the oxidation of linoleic acid and its niethyl ester. Journal of the American Oil Chemisls' Society 39 97103Google Scholar
Namiki, M. 1988 Chemistry of Maillard reactions: recent studies on the browning reaction mechanism and the development of antioxidants and mutagens. Advances in Food Research 32 115184Google Scholar
Nursten, H. E. 1986 Maillard browning reactions in dried foods. In Concentration and Drying of Foods pp. 5368 (Ed. MacCarthy, D.). London: Elsevier Applied ScienceGoogle Scholar
Obretenov, T., Ivanov, S. & Peeva, D. 1986 Antioxidative activity of Maillard reaction products obtained from hydrolysates. Developments in Food Science 13 281290Google Scholar
Pomeranz, Y., Johnson, J. A. & Shellbnbbrger, J. A. 1962 Effects of varions sugars on browning. Journal of Food Science 29 350354CrossRefGoogle Scholar
Singh, H. & Fox, P. F. 1989 Heat-induced changes in casein. International Dairy Federation Bulletin No. 238 2430Google Scholar
Tannenbaum, S. R., Barth, H. & Le Roux, J. P. 1969 Loss of methionine in casein during storage with autoxidizing methyl linoleate. Journal of Agricultural and Food Chemistry 17 13531354CrossRefGoogle Scholar
Taylor, M. J. & Richardson, T. 1980 a Antioxidant activity of cysteine and protein sulfhydryls in a linoleate emulsion oxidized by hemoglobin. Journal of Food Science 45 12231228CrossRefGoogle Scholar
Taylor, M. J. & Richardson, T. 1980 b Antioxidant activity of skim milk: effect of heat and resultant sulfydryl groups. Journal of Dairy Science 63 17831795Google Scholar
Truby, M. G., Richardson, T. & Fennema, O. 1987 Hematin-catalyzed oxidation of linoleate as influenced by β-casein. Food Chemislry 24 247261CrossRefGoogle Scholar
Vandewalle, L. & Huyghebaert, A. 1980 The antioxidant activity of the non-enzymatic browning reaction in sugar-protein Systems. Mededelingen van de Faculteit Landbouwwetenschappen Rijksuniversiteit Gent 45 12771286Google Scholar
Walstra, P. & Jenness, R. 1984 Dairy Chemistry and Physics Chapter 10. New York: John Wiley & SonsGoogle Scholar