Free Access
Volume 80, Number 2, March-April 2000
Page(s) 209 - 222


Alais C., Science du lait. Principes des techniques laitières, Éd. Sepaic, Paris, 1984.
Anderson M., Brooker B.E., Loss of material during the isolation of milk fat globule membrane, J. Dairy Sci. 58 (1975) 1442-1448.
Anderson M., Cawston T.W., Reviews of the progress of the dairy science: the milk-fat globule membrane, J. Dairy Res. 42 (1975) 459-483.
Bargmann W., Knoop A., Über die Morphologie der Milchsekretion. Licht und electronenmikroskopische Studien an der Milchdrüse der Ratte, Z. Zellforsch. 49 (1959) 344-388.
Basch J.J., Farrell H.M. Jr., Greenberg R., Identification of the milk fat globule membrane proteins. I. Isolation and partial characterization of glycoprotein B, Biochim. Biophys. Acta 448 (1976) 589-598.
Basch J.J., Greenberg R., Farrell H.M. Jr., Identification of the milk fat globule membrane proteins. II. Isolation of major proteins from electrophoretic gels and comparison of their amino acid compositions, Biochim. Biophys. Acta 830 (1985) 127-135.
Buchheim W., Membranes of milk fat globules - ultrastructural, biochemical and technological aspects, Kiel. Milchwirtsch. Forschungsber. 38 (1986) 227-246.
Chazelas S., Razafindralambo H., Dumont de Chassart Q., Paquot M., Surface properties of the milk fat globule membrane : competition between casein and membrane material, in: Dickinson E., Lorient D. (Eds.), Food macromolecules and colloids, Roy. Soc. Chemistry, Cambridge, Royaume Uni, 1995, pp. 95-98.
Chen Z.Y., Nawar W.W., Role of milk fat globule membrane in autoxidation of milk fat, J. Food Sci. 56 (1991) 398-401.
Chilliard Y., Lamberet G., La lipolyse dans le lait : les différents types, mécanismes, facteurs de variation, signification pratique, Lait 64 (1984) 544-578.
Corredig M., Dalgleish D.G., Isolates from industrial buttermilk: emulsifying properties of material derived from the milk fat globule membrane, J. Agric. Food Chem. 45 (1997) 4595-4600.
Corredig M., Dalgleish D.G., Buttermilk properties in emulsions with soybean oil as affected by fat globule membrane-derived proteins, J. Food Sci. 63 (1998) 476-480.
Corredig M., Dalgleish D.G., Effect of heating of cream on the properties of milk-fat globule membrane isolates, J. Agric. Food Chem. 46 (1998) 2533-2540.
Dapper C.H., Valivullah H.M., Keenan T.W., Use of polar aprotic solvents to release membranes from milk lipid globules, J. Dairy Sci. 70 (1987) 760-765.
Deeth H., The role of phospholipids in the stability of milk fat globules, Australian Food Industry Science Center, Milkfat update conf., 1997.
Dufour E., Subirade M., Loupil F., Riaublanc A., Whey proteins modify the phase transition of milk fat globule phospholipids, Lait 79 (1999) 217-228.
Franke W.W., Heid H.W., Grund C., Winter S., Freudenstein C., Schurid E., Jarasch E.D., Keenan T.W., Antibodies to the major insoluble milk fat globule membrane associated proteins: specific location in apical regions of lactating epithelial cells, J. Cell. Biol. 89 (1981) 485-494.
Freudenstein C., Keenan T.W., Eigel W.N., Sasaki M., Stadler J., Franke W.W., Preparation and characterization of the inner coat material associated with fat globule membranes from bovine and human milk, Exp. Cell Res. 118 (1979) 277-294.
Houlihan A.V., Goddard P.A., Nottingham S.M., Kitchen B.J., Masters C.J., Interactions between the BMFGM and skim milk components on heating whole milk, J. Dairy Res. 59 (1992) 187-195.
Innocente N., Blecker C., Deroanne C., Paquot M., Langmuir film balance study of the surface properties of a soluble fraction of milk fat globule membrane, J. Agric. Food Chem. 45 (1997) 1559-1563.
Jarasch E.D., Grund C., Brudder G., Heid H.W., Keenan T.W., Franke W.W., Localization of xanthine oxidase in mammary-gland epithelium and capillary endothelium, Cell 25 (1981) 67-92.
Jensen S.K., Nielsen K.N., Tocopherols, retinol, b-carotene and fatty acids in fat globule core and cows' milk, J. Dairy Res. 63 (1996) 565-574.
Kanno C., Emulsifying properties of bovine milk fat globule membrane in milk fat emulsion: conditions for the reconstitution of fat globules, J. Food Sci. 54 (1989) 1534-1539.
Kanno C., Kim D.H., A simple procedure for the preparation of bovine milk fat globule membrane and a comparison of its composition, enzymatic activities, and electrophoretic properties with those preparated by other methods, Agric. Biol. Chem. 54 (1990) 2845-2854.
Kanno C., Shimizu M., Yamauchi K., Isolation and physicochemical properties of a soluble glycoprotein fraction of milk fat globule membrane, Agric. Biol. Chem. 39 (1975) 1835-1842.
Kanno C., Schimomura Y., Takano E., Physicochemical properties of milk fat emulsions stabilized with bovine milk fat globule membrane, J. Food Sci. 56 (1991) 1219-1223.
Keenan T.W., Heid A.W., Tight attachment of fatty acids to proteins associated with milk lipid globule membrane, Eur. J. Cell Biol. 26 (1982) 270-276.
Keenan T.W., Patton S., The stucture of milk: implications for sampling and storage, A. The milk lipid globule membrane, in: Jensen R.G. (Ed.), Handbook of milk composition, Academic Press Inc., San Diego, CA, USA, 1995, pp. 5-50.
Keenan.T.W., Moon T.W., Dylewsky D.P., Lipid globules retain membrane material after homogenization, J. Dairy Sci. 66 (1983) 196-203.
Kim S.K., Nawar W.W., Oxidative interactions of cholesterol in the milk fat globule membrane, Lipids 27 (1992) 928-932.
King N.M., The milk fat globule membrane and some associated phenomena, Commonwealth Agricultural Bureaus, Farnham Royal, Bucks, England, 1955.
Kitchen B.J., A comparison of the properties of membranes isolated from bovine skim milk and cream, Biochim. Biophys. Acta 356 (1974) 257-269.
Kristensen D., Nylander T., Rasmussen J.T., Paulsson M., Carlsson A., Bovine milk sphingomyelin at the air/water interface and its interaction with xanthine oxydase, Proc. int. meeting on milk proteins: structure and functions, Wadahl, Norvège, 6-8 mars 1996.
Luo X.Y., Snow L.D., Detergent interference with Lowry assay of bovine milk fat globule membrane protein, Biochem. Arch. 13 (1997) 319-326.
Mather I.H., Keenan T.W., Studies on the structure of milk fat globule membrane, J. Membrane Biol. 21 (1975) 65-85.
Mather I.H., Keenan T.W., Origin and secretion of milk lipids, J. Mam. Gland Biol. Neoplasia 3 (1998) 259-273.
Mather I.H., Jack L.J.W., A review of the molecular and cellular biology of butyrophilin, the major protein in bovine milk fat globule membrane, J. Dairy Sci. 76 (1993) 3832-3850.
Maurel M.-A., La membrane plasmique, in: Biologie de la cellule, Breal Eds., Rosny, France, 1994, pp. 125-167.
McPherson A.V., Kitchen B.J., Reviews of the progress of dairy science: the bovine milk fat globule membrane - its formation, composition, structure and behaviour in milk and dairy products, J. Dairy Res. 50 (1983) 107-133.
McPherson A.V., Dash M.C., Kitchen B.J., Isolation of bovine milk fat globule membrane material without prior removal of caseins and whey proteins, J. Dairy Res. 51 (1984) 113-121.
Patton S., Release of remnant plasma membrane from milk fat globules by Triton X-100, Biochim. Biophys. Acta 688 (1982) 727-734.
Patton S., Keenan T.W., The milk fat globule membrane, Biochim. Biophys. Acta 415 (1975) 273-309.
Patton S., Huston G.E., A method for isolation of milk fat globules, Lipids 21 (1986) 170-174.
Patton S., Borgstrom B., Stemberger B.H., Welsch U., Release of membrane from milk fat globules by conjugated bile salts, J. Pediatr. Gastroenterol. Nutr. 5 (1986) 262-267.
Peereboom C.J., Fette, Seifen Austrich 71 (1969) 314.
Phipps L.W., Temple D.M., Surface properties of milk fat globules : interfacial tension studies, J. Dairy Res. 49 (1982) 61-72.
Rand R.P., Burton A.C., Mechanical properties of the red cell membrane. I. Membrane stiffness and intracellular pressure, Biophys. J. 4 (1964) 115-135.
Shimizu M., Miyaji H., Yamaguchi K., Inhibition of lipolysis by milk fat globule membrane materials in model milk fat emulsion, Agric. Biol. Chem. 46 (1982) 795-799.
Sharma K.C., Kumari A., Sareen V.K., Singh S., Lipid composition of fat globule membrane from buttermilk and butter serum of buffalo and cow milk, Milchwissenschaft 42 (1987) 439-441.
Sundheim G., Bengtsson-Olivecrona G., Hydrolysis of milk fat by lipoprotein lipase: inhibition by proteins extracted from milk fat globule membrane, J. Dairy Sci. 70 (1987) 1815-1821.
Walstra P., High-melting triglycerides in the milk fat globule membrane; an artefact? Neth. Milk Dairy J. 28 (1974) 3-9.
Walstra P., Jenness R., Colloidal and surface phenomena, in: Dairy Chemistry and Physics, J. Wiley & Sons, New York, USA, 1984, pp. 211-228.


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