Abstract
Milk is a heterogeneous mixture which can be defined as a complex chemical substance in which fat is emulsified as globules, major milk protein (casein), and some mineral matters in the colloidal state and lactose together with some minerals and soluble whey proteins in the form of true solution. The overview of biosynthesis of milk and its constituents is highlighted. The key constituents of milk (fat, protein, salts, lactose, enzymes, vitamins) and their composition as well as factors affecting the chemical composition of milk are described. The compositions of milk fat globule membrane are also covered. Moreover, various types of milk products like fermented dairy products (e.g., dahi, yogurt, kefir, and cheese), fat-rich dairy products (e.g., cream), concentrated milk, sweetened condensed milk, milk powders, ice cream, heat-desiccated milk products (like khoa, khoa-based sweet), and heat-acid-coagulated milk products (like paneer and chhana) and its chemical compositions are discussed in this chapter.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Aneja RP, Mathur BN, Chandan RC, Banergee AK (2002) Technology of Indian milk products. A Dairy India Publication, New Delhi
Belitz HD, Grosch W, Schieberle P (2009) Food chemistry, 4th revised and extended edn. Springer, Berlin/Heidelberg, pp 498–545
Campagna S, Mathot AG, Fleury Y, Girardet JM, Gaillard JL (2004) Antibacterial activity of lactophoricin, a synthetic 23-residues peptide derived from the sequence of bovine milk component-3 of proteose peptone. J Dairy Sci 87:1621–1626
Chandan RC, Patel DA, Raul AA, Stephen PO (2008) Mammary gland and milk biosynthesis: nature’s virtual bioprocessing factory. In: Chandan RC (ed) Dairy processing & quality assurance. Wiley-Blackwell, Ames, pp 59–74
Christie WW (2003) Isolation, separation, identification and structural analysis of lipids. In: Barnes PJ (ed) Lipid analysis, 3rd edn. Oily Press, Bridgwater, pp 91–102
Danthine S, Blecker C, Paquot M, Innocente N, Deroanne C (2000) Progress in milk fat globule membrane research: a review. Lait 80:209–222
Deeth HC (1997) The role of phospholipids in the stability of milk fat globules. Aust J Dairy Technol 52:44–46
Deeth HC (2006) Lipoprotein lipase and lipolysis in milk. Int Dairy J 16:555–562
Deeth HC, Hartanto J (2009) Chemistry of milk – role of constituents in evaporation and drying. In: Tamime AY (ed) Dairy powders and concentrated products. Wiley-Blackwell/Wiley, Chichester, pp 1–27
Dewettinck K, Rombaut R, Thienpont N, Le TT, Messens K, Van Camp J (2008) Nutritional and technological aspects of milk fat globule membrane material. Int Dairy J 18:436–457
El-Loly MM (2011) Composition, properties and nutritional aspects of milk fat globule membrane – a review. Pol J Food Nutr Sci 61:7–32
Farkye NY, Shah N (2015) Milk proteins. In: Ustunol Z (ed) Applied food protein chemistry, 1st edn. Wiley, Chichester, pp 427–458
Fong BY, Norris CS, MacGibbon AKH (2007) Protein and lipid composition of bovine milk-fat-globule membrane. Int Dairy J 17:275–288
Fox PF (2003) Indigenous enzymes in milk. In: Fox PF, McSweeney PLH (eds) Advanced dairy chemistry, 3rd edn. Proteins, vol 1. Springer, New York, pp 467–471
Fox PF, Kelly AL (2006a) Indigenous enzymes in milk: overview and historical aspects – part 1. Int Dairy J 16:500–516
Fox PF, Kelly AL (2006b) Indigenous enzymes in milk: overview and historical aspects – part 2. Int Dairy J 16:517–532
Fox PF, McSweeney PLH (1998) Dairy chemistry and biochemistry. Blackie Academic and Professional, London
Girardet JM, Linden G (1996) PP3 component of bovine milk. A phosphorylated whey glycoprotein. J Dairy Res 63:333–350
Girardet JM, Coddeville B, Plancke Y, Strecker G, Campagna S, Spik G (1995) Structure of glycopeptides isolated from bovine milk component PP3. Eur J Biochem 234:939–946
Goff HD, Hartel RW (2013) Ice cream, 7th edn. Springer, New York
Hill AR (1995) Chemical species in cheese and their origin in milk components. In: Malin EL, Tunick MH (eds) Chemistry of structure-function relationships in cheese. Springer, New York, pp 43–58
Holt C (1985) The milk salts: their secretion, concentrations and physical chemistry. In: Fox PF (ed) Developments in dairy chemistry. Lactose and minor constituents, vol 3. Elsevier Applied Science, London, pp 143–181
Holt C (1992) Structure and stability of bovine casein micelles. Adv Protein Chem 43:63–151
Huppertz T, Kelly AL (2006) Physical chemistry of milk fat globules. In: Fox PF, McSweeney PLH (eds) Advanced dairy chemistry 2 (lipids), 3rd edn. Kluwer/Plenum Publishers, New York, pp 173–212
Huppertz T, Kelly AL (2009) Properties and constituents of cow’s milk. In: Tamime AY (ed) Milk processing and quality management. Blackwell, Oxford, UK, pp 23–47
Innocente N, Corradini C, Blecker C, Paquot M (1998) Dynamic surface properties of proteose-peptone fraction of bovine milk. J Dairy Sci 81:1833–1839
Janer C, Pelaez C, Requena T (2004) Caseinomacropeptide and whey protein concentrate enhance Bifidobacterium lactis growth in milk. Food Chem 86:263–267
Jensen RG (2002) Invited review – the composition of bovine milk lipids: January 1995 to December 2000. J Dairy Sci 85:295–350
Kanno C (1990) Secretory membranes of the lactating mammary gland. Protoplasma 159:184–208
Keenan TW, Dylewski DP (1995) Intracellular origin of milk lipid globules and the nature and structure of the milk lipid membrane. In: Fox PF (ed) Advanced dairy chemistry. Lipids, vol 2. Chapman & Hall, London, pp 89–130
Keenan TW, Mather IH (2002) Milk fat globule membrane. In: Roginski H (ed) Encyclopedia of dairy sciences. Academic, London, pp 1568–1576
Keenan TW, Patton S (1995) The structure of milk: implications for sampling and storage A. The milk lipid globular membrane. In: Jensen RG (ed) Handbook of milk composition. Academic, San Diego
Keenan TW, Dylewski DP, Woodford TA, Ford RH (1983) Origin of the milk fat globules and the nature of the milk fat globule membrane. In: Fox PF (ed) Developments in dairy chemistry. Applied Science Publishers, New York, pp 83–118
Kelly AL, Fox PF (2006) Indigenous enzymes in milk: a synopsis of future research requirements. Int Dairy J 16:707–715
Kim DH, Kanno C, Mizokami Y (1992) Purification and characterization of major glycoproteins, PAS-6 and PAS-7 from bovine milk fat globule membrane. Biochim Biophys Acta 1122:203–211
Kindstedt PS (2013) The basics of cheese making. Microbiol Spectr 1(1):CM-0002-2012. doi:10.1128/microbiolspec.CM-0002-2012
Larson B (1985) Biosynthesis and cellular secretion of milk. In: Larson BL (ed) Lactation. The Iowa State University Press, Ames, IA, pp 129–163
Lopez C (2011) Milk fat globules enveloped by their biological membrane: unique colloidal assemblies with a specific composition and structure. Curr Opin Colloid Interface Sci 16:391–404
Lopez C, Briard-Bion V, Menard O, Rousseau F, Pradel P, Besle J (2008) Phospholipid, sphingolipid, and fatty acid compositions of the milk fat globule membrane are modified by diet. J Agril Food Chem 56:5226–5236
Mather IH (2000) A review and proposed nomenclature for major proteins of the milk-fat globule membrane. J Dairy Sci 83:203–247
McMahon DJ, Oommen BS (2008) Supramolecular structure of the casein micelle. J Dairy Sci 91:1709–1721
McManaman JL, Palmer CA, Wright RM, Neville MC (2002) Functional regulation of Xanthine oxidoreductase expression and localization in the mouse mammary gland: evidence of a role in lipid secretion. J Physiol 545:567–579
McPherson AV, Kitchen BJ (1983) 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 50:107–133
Morrissey PA, Hill TR (2009) Fat-soluble vitamins and vitamin C in milk and milk products. In: Fox PF, McSweeney PLH (eds) Advanced dairy chemistry. Lactose, water, salts and minor constituents, vol 3. Springer, New York, pp 527–589
Mulder H, Walstra P (1974) The milk fat globule emulsion science as applied to milk products and comparable foods. Pudoc, Wageningen, pp 163–192
Nohr D, Biesalski HK (2009) Vitamins in milk and dairy products: B-group vitamins. In: Fox PF, McSweeney PLH (eds) Advanced dairy chemistry. Lactose, water, salts and minor constituents, vol 3. Springer, New York, pp 591–630
Reinhardt TA, Lippolis JD (2006a) Developmental changes in the milk fat globule membrane proteome during the transition from colostrum to milk. J Dairy Sci 91:2307–2318
Reinhardt TA, Lippolis JD (2006b) Bovine milk fat globule membrane proteome. J Dairy Res 73:406–416
Riccio P (2004) The proteins of the milk fat globule membrane in the balance. Trends Food Sci Technol 15:458–461
Schmidt DG (1980) Colloidal aspects of the caseins. Neth Milk Dairy J 34:42–64
Shivashraya S (2014a) Dairy technology: milk and milk processing, vol 1. New India Publishing Agency, New Delhi
Shivashraya S (2014b) Dairy technology: dairy products and quality assurance, vol 2. New India Publishing Agency, New Delhi
Singh H (2006) The milk fat globule membrane – a biophysical system for food applications. Curr Opin Colloid Interface Sci 11:154–163
Slattery CW, Evard R (1973) A model for the formation and structure of casein micelles from subunits of variable composition. Biochim Biophys Acta 17:529–538
Smit G, Smit BA, Engels WJM (2005) Flavour formation by lactic acid bacteria and biochemical flavour profiling of cheese products. FEMS Microbiol Rev 29:591–610
Spitsberg VL, Matitashvili E, Gorewit RC (1995) Association of fatty acid binding protein and glycoprotein CD36 in the bovine mammary gland. Eur J Biochem 230:872–878
Spitsberg VL (2005) Invited review: bovine milk fat globule membrane as a potential nutraceutical. J Dairy Sci 88:2289–2294
Swaisgood HE (2008) Characteristics of milk. In: Damodaran S, Kirk P, Fennema OR (eds) Fennema’s food chemistry, 4th edn. CRC Press/Taylor and Francis Group, Boca Raton, pp 885–922
van Calcar SC, Ney DM (2012) Food products made with glycomacropeptide, a low phenylalanine whey protein, provide a new alternative to amino acid–based medical foods for nutrition management of phenylketonuria. J Acad Nutr Diet 112:1201–1210
Vanhoutte B, Rombaut R, Dewettinck K, Van der Meeren P (2004) Phospholipids. In: Nollet LML (ed) Food analysis. Marcel Dekker, New York, pp 349–382
Varnam AH, Sutherland JP (2001) Milk and milk products: technology, chemistry and microbiology. Springer (India), New Delhi
Walstra P (1990) On the stability of casein micelles. J Dairy Sci 73:1965–1979
Walstra P (1999) Casein sub-micelles: do they exist? Int Dairy J 9:189–192
Walstra P, Geurts TJ, Noomen A, Jellema A, van Boekel MAJS (1999) Dairy technology – principles of milk properties and processes. Marcel Dekker, New York, pp 25–37
Walstra P, Wouters Jan TM, Geurts TJ (2006) Dairy science and technology, 2nd edn. CRC Press/Taylor and Francis Group, Boca Raton
Walther B, Schmid A, Sieber R, Wehrmüller K (2008) Cheese in nutrition and health. Dairy Sci Technol 88(4–5):389–405
Waugh DF (1958) The interaction of αs, β- and κ-caseins in micelle formation. Faraday Soc Discuss 25:186–192
Wooding FB, Kemp P (1975) High melting point triglycerides and milk fat globule membrane. J Dairy Res 49:419–426
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer-Verlag Berlin Heidelberg
About this entry
Cite this entry
Mehta, B.M. (2015). Chemical Composition of Milk and Milk Products. In: Cheung, P., Mehta, B. (eds) Handbook of Food Chemistry. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-36605-5_31
Download citation
DOI: https://doi.org/10.1007/978-3-642-36605-5_31
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-36604-8
Online ISBN: 978-3-642-36605-5
eBook Packages: Chemistry and Materials ScienceReference Module Physical and Materials ScienceReference Module Chemistry, Materials and Physics