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Determination of furosine in heated milk as a measure of heat intensity during processing

Published online by Cambridge University Press:  01 June 2009

Helmut F. Erbersdobler ,
Barutha Dehn ,
Ashok Nangpal  and
Helmut Reuter
Helmut F. Erbersdobler
Affiliation:
Institut für Humaneranährung und Lebensmittelkunde der Christian-Albrechts-Universität, 2300 Kiel 1, FRG
Barutha Dehn
Affiliation:
Institut für Humaneranährung und Lebensmittelkunde der Christian-Albrechts-Universität, 2300 Kiel 1, FRG
Ashok Nangpal
Affiliation:
Institut für Verfahrenstechnik der Bundesanstalt für Milchforschung, 2300 Kiel 1, FRG
Helmut Reuter
Affiliation:
Institut für Verfahrenstechnik der Bundesanstalt für Milchforschung, 2300 Kiel 1, FRG
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Abstract

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Type
Short Communication
Information
Journal of Dairy Research , Volume 54 , Issue 1 , February 1987 , pp. 147 - 151
Copyright
Copyright © Proprietors of Journal of Dairy Research 1987

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References

REFERENCES

Brandt, A. & Erbersdobler, H. F. 1972 [On the determination of furosine in food and nutrition.] Landwirtschaflliche Forschung 28 (Supplement) 115119Google Scholar
BüSER, W. & Erbersdobler, H. F. 1985 Determination of furosine by gas-liquid-chromatography. Journal of Chromatography 346 363368CrossRefGoogle Scholar
Erbersdobler, H. F. 1986 Twenty years of furosine-better knowledge about the biological significance of Maillard reaction in food and nutrition. In Amino Carbonyl Reactions in Food and Biological Systems pp. 481491 (Eds Fujimaki, M., Namiki, M. and Kato, H.). Amsterdam: Elsevier (Developments in Food Science 13)Google Scholar
Erbersdobler, H. F., Reuter, H. & Trautwein, E. 1984 Determination of furosine as an indicator of early Maillard products in heated milk. In Challenges to Contemporary Dairy Analytical Techniques p. 328. London: R.S.C. (Royal Society of Chemistry Special Publication 49)Google Scholar
Erbersdobler, H. F. & Zucker, H. 1966 [Studies on the content of lysine and available lysine in skim milk powder.] Milchwissenschaft 21 564568Google Scholar
Finot, P. A., Deutsch, R. & Bujard, E. 1981 The extent of the Maillard reaction during the processing of milk. In Progress in Food and Nutrition Science 5 345355 (Ed. Eriksson, C.). Oxford: Pergamon PressGoogle Scholar
Geier, H. & Klostermeyer, H. 1983 Formation of lactulose during heat treatment of milk. Milchwissenschaft 38 475477Google Scholar
Ledl, F., Fritsch, G., Pachmayr, O., & Severin, Th. 1986 Degradation of Maillard products. In Amino Carbonyl Reactions in Food and Biological Systems pp. 173182 (Eds Fujimaki, M., Namiki, M. and Kato, H.). Amsterdam: Elsevier (Developments in Food Science 13)Google Scholar
Möller, A. B. 1981 Chemical changes in ultra heat treated milk during storage. In Progress in Food and Nutrition Science 5 357368 (Ed. Eriksson, C.). Oxford: Pergamon PressGoogle Scholar
Möller, A. B., Andrews, A. T. & Cheeseman, G. C. 1977 a Chemical changes in ultra-heat-treated milk during storage. II. Lactuloselysine and fructoselysine formation by the Maillard reaction. Journal of Dairy Research 44 267275CrossRefGoogle Scholar
Möller, A. B., Andrews, A. T. & Cheeseman, G. C. 1977 b Chemical changes in ultra-heat-treated milk during storage. III. Methods for the estimation of lysine and sugar-lysine derivatives formed by the Maillard reaction. Journal of Dairy Research 44 277281CrossRefGoogle Scholar