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Isolation and composition of milk fat globule membrane material

II. From homogenized and ultra heat treated milks

Published online by Cambridge University Press:  01 June 2009

Avis V. McPherson
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Brisbane 4007, Australia
Mary C. Dash
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Brisbane 4007, Australia
Barry J. Kitchen
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Brisbane 4007, Australia

Summary

The material surrounding the fat globules in commercial pasteurized homogenized milk was isolated by centrifugation of the freeze – thaw extract of the fat globules through a 52·5% (w/v) sucrose solution in simulated milk ultrafiltrate. The purified membrane material contained higher neutral lipid levels than fresh raw milk fat globule membrane (MFGM) material. Caseins and whey proteins, mainly β-lactoglobulin (β-lg) were found to be the major protein components of homogenized milk membrane material. Native MFGM polypeptides comprised only a small proportion of the total protein in these membranes. The total amount of membrane material isolated from homogenized milk was substantially higher than that from fresh raw milk. Analysis of homogenized milk membrane material by linear sucrose density gradient centrifugation showed a different pattern to that found with other milks, indicating the presence of new lipoprotein complexes. Commercial ultra heat treated (UHT) milks were also examined, but it was difficult to obtain isolated MFGM material free from core fat. However, fat globule fractions were isolated from these products by high speed centrifugation and these were analysed intact. Membrane material in these milks contained caseins and whey proteins (mainly β-1g). Natural MFGM polypeptides were present at extremely low levels. Phospholipid levels in UHT milk membranes were greatly reduced compared with membrane material isolated from other milks.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1984

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References

REFERENCES

Adams, D. M., Barach, J. T. & Speck, M. L. 1975 Heat resistant proteases produced in milk by psychrotrophic bacteria of dairy origin. Journal of Dairy Science 58 828834CrossRefGoogle ScholarPubMed
Anderson, M., Brooker, B. E., Cawston, T. E. & Cheeseman, G. C. 1977 Changes during storage in stability and composition of ultra-heat-treated aseptically-packed cream of 18% fat content. Journal of Dairy Research 44 111123Google Scholar
Brunner, J. R. 1974 Physical equilibria in milk: the lipid phase. In Fundamentals of Dairy Chemistry 2nd edn, pp. 474602 (Eds Webb, B. H., Johnson, A. H. and Alford, J. A.) Westport, CT: Avi Publishing Co. Inc.Google Scholar
Cliffe, A. J. & Law, B. A. 1982 A new method for the detection of microbial proteolytic enzymes in milk. Journal of Dairy Research 49 209219CrossRefGoogle Scholar
Darling, D. F. & Butcher, D. W. 1978 Milk-fat globule membrane in homogenized cream. Journal of Dairy Research 45 197208CrossRefGoogle Scholar
Eigel, W. N. 1977 Effect of bovine plasmin on αs1-B and κ-A caseins. Journal of Dairy Science 60 13991403CrossRefGoogle ScholarPubMed
Farrell, H. M. & Thompson, M. P. 1974 Physical equilibria: proteins. In Fundamentals of Dairy Chemistry 2nd edn, pp. 442473 (Eds Webb, B. H., Johnson, A. H. and Alford, J. A.) Westport, CT: Avi Publishing Co. Inc.Google Scholar
Henstra, S. & Schmidt, D. G. 1970 On the structure of the fat-protein complex in homogenized cow's milk. Netherlands Milk and Dairy Journal 24 4551Google Scholar
Itoh, T. & Nakanishi, T. 1974 Milk protein fractions contributing to the globule membrane of fat emulsions. Journal of the Agricultural Chemical Society of Japan 48 239244Google Scholar
Jackson, R. H. & Brunner, J. R. 1960 Characteristics of protein fractions isolated from the fat/plasma interface of homogenized milk. Journal of Dairy Science 43 912919CrossRefGoogle Scholar
Jenness, R. & Koops, J. 1962 Preparation and properties of a salt solution which simulates milk ultrafiltrate. Netherlands Milk and Dairy Journal 16 153164Google Scholar
Keenan, T. W., Moon, T. -W. & Dylewski, D. P. 1983 Lipid globules retain globule membrane material after homogenization. Journal of Dairy Science 66 196203CrossRefGoogle Scholar
Kitchen, B. J. 1977 Fractionation and characterization of the membranes from bovine milk fat globules. Journal of Dairy Research 44 469482CrossRefGoogle Scholar
Kobylka, D. & Carraway, K. L. 1972 Proteins and glycoproteins of the milk fat globule membrane. Biochimica et Biophysica Acta 288 282295Google Scholar
Law, B. A., Andrews, A. T. & Sharpe, M. E. 1977 Gelation of ultra-high-temperature-sterilized milk by proteases from a strain of Pseudomonas fluorescens isolated from raw milk. Journal of Dairy Research 44 145148CrossRefGoogle Scholar
McPherson, A. V., Dash, M. C. & Kitchen, B. J. 1984 a Isolation of bovine milk fat globule membrane material from cream without prior removal of caseins and whey proteins. Journal of Dairy Research 51 113122Google Scholar
McPherson, A. V., Dash, M. C. & Kitchen, B. J. 1984 b Isolation and composition of milk fat globule membrane material. I. From pasteurized milks and creams. Journal of Dairy Research 51 279287.Google Scholar
Mather, I. H. & Keenan, T. W. 1975 Studies on the structure of milk fat globule membrane. Journal of Membrane Biology 21 6585CrossRefGoogle ScholarPubMed
Mulder, H. & Walstra, P. 1974 The milk fat globule–emulsion science as applied to milk products and comparable foods. Farnham Royal: Commonwealth Agricultural BureauxGoogle Scholar
Yamauchi, K., Shimizu, M. & Ando, T. 1982 Milk fat globule membrane proteins in aseptically packed ultra-heat-treated milk: changes during storage. Agricultural and Biological Chemistry 46 823825Google Scholar