Food Biochemistry and Food Processing (2 edition)

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24 Chemistry and Biochemistry of Milk Constituents 443

the minor constituents of milk are even greater than those of
the macro constituents. The composition of milk also changes
markedly during lactation, reflecting the changing nutritional re-
quirements of the neonate and during mastitis and physiological
stress. In this chapter, the typical characteristics of the princi-
pal, and some of the minor, constituents of bovine milk will
be described. The milk of the principal dairying species, cow,
buffalo, sheep and goat are generally similar but differ in detail.
The milks of several non-bovine species are described by Park
and Haenlein (2006) and Fuquay et al. (2011); the latter includes
articles on monotremes and marsupials, marine mammals and
primates.
Sheep and goats were domesticated around 8000bcand their
milk has been used by humans since. However, cattle, espe-
cially breeds ofBos taurus, are now the dominant dairy animals.
Total recorded world milk production is approximately 600×
106 tonnes/annum, of which approximately 85% is bovine,
11% is buffalo and 2% each is from sheep and goats. Camels,
mares, reindeer and yaks are important dairy animals in lim-
ited geographical regions with specific cultural and/or climatic
conditions.
Milk is a very flexible raw material; several thousand dairy
products are produced around the world in a great diversity
of flavours and forms, including about 1400 varieties/variants
of cheese. The principal dairy products and the percentage of
milk used in their production are: liquid (beverage) milk, ap-
proximately 40%; cheese, approximately 35%; butter, approxi-
mately 32%; whole milk powder, approximately 6%; skimmed
milk powder, approximately 9%; concentrated milk products ap-
proximately 2%; fermented milk products, approximately 2%;
casein, approximately 2% and infant formulae, approximately
0.3%. The flexibility of milk as a raw material is a result of the
properties, many of them unique, of its principal constituents;
many of these are very easily isolated, permitting the production
of valuable food ingredients. Milk is free of off-flavours, pig-
ments and toxins, which greatly facilitates its use as a food or as
a raw material for food production.
The processability and functionality of milk and milk products
are determined by the chemical and physicochemical properties
of its principal constituents, that is lactose, lipids, proteins, and
salts, which will be described in this chapter. The exploitation
and significance of the chemical and physico-chemical prop-
erties of milk constituents in the production and properties of
the principal groups of dairy foods, that is liquid milk products,
cheese, butter, fermented milks, functional milk proteins and
lactose will be described in Chapter 25. Many of the principal
problems encountered during the processing of milk are caused
by variability in the concentrations and properties of the principal
constituents arising from several factors, including breed, indi-
viduality of the animal (i.e., genetic factors), stage of lactation,
health of the animal, especially mastitis, and nutritional status.
Synchronised calving, as practised in New Zealand, Australia
and Ireland, to avail of cheap grass as the principal component
of the cow’s diet, has a very marked effect on the composition
and properties of milk (see O’Brien et al. 1999a, b, c, Mehra
et al. 1999). However, much of the variability can be offset by
standardising the composition of milk using various methods

(e.g., centrifugation, ultrafiltration or supplementation) or by
modifying the process technology.
The chemical and physico-chemical properties of the princi-
pal constituents of milk are well characterised and described.
The very extensive literature includes the following textbooks:
Walstra and Jenness (1984), Wong et al. (1988), Fox (1992,
1995, 1997, 2003a), Fox and McSweeney (1998, 2003, 2006),
Walstra et al. (1999, 2005) and McSweeney and Fox (2009).

SACCHARIDES


Lactose

Introduction

Lactose is a reducing disaccharide comprising glucose and
galactose, linked by aβ1–4-O-glycosidic bond (Fig. 24.1). It
is unique to milk and is synthesised in the mammary gland
from glucose transported from the blood; one molecule of glu-
cose is epimerised to galactose, as UDP-galactose (Gal),viathe
Leloir pathway and is condensed with a second molecule of
glucose by a two-component enzyme, lactose synthetase. Com-
ponent A is a general UDP-galactosyl transferase (UDP-GT; EC
2.4.1.2.2), which transfers galactose from UDP-Gal to a range
of sugars, peptides or lipids. Component B is the whey pro-
tein,α-lactalbumin (α-La), in the presence of which, theKM
of UDP-GT for glucose is reduced 1000-fold and lactose is the
principal product synthesised. There is a good correlation be-
tween the concentrations of lactose andα-La in milk. Lactose
is responsible for approximately 50% of the osmotic pressure of
milk, which is equal to that of blood and varies little; therefore,
the concentration of lactose in milk is tightly controlled and is
independent of breed, individuality and nutritional factors, but
decreases as lactation advances and especially during mastitis,
in both cases due to the influx of NaCl from the blood. The
physiological function ofα-La is probably to control the syn-
thesis of lactose, and thus maintain the osmotic pressure of milk
relatively constant.
The concentration of lactose in milk ranges from approxi-
mately 0, for some species of seal, to approximately 10% in
the milk of some monkeys. The concentration of lactose in the
milk of the principal dairy species is quite similar (cow, 4.8%;
buffalo, 4.3%; sheep, 4.6%; goat, 4.9%; camel, 5.1%), excep-
tions are the horse (6.1%), donkey (6.9%) and reindeer (2.5%);
human milk contains about 7.0% lactose. The lactose content of
bulk herd milk from randomly calved cows varies little through-
out the year but differences can be quite large when calving of
cows is synchronised, for example in Ireland, the level of lac-
tose in creamery milk varies from approximately 4.8% in May
to approximately 4.2% in October.

Chemical and Physico-Chemical Properties of Lactose

Among sugars, lactose has a number of distinctive character-
istics, some of which cause problems in milk products during
processing and storage; however, some of its characteristics are
exploited to advantage.
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