MILK PROTEINS^227the column, p-lg, which has a higher affinity for this resin than the other
proteins, displaces a-la and BSA, giving a mixture of these proteins in the
eluate; a highly purified p-lg can be obtained by eluting the protein-
saturated column with dilute HCl.4.15.7 Casein-whey protein co-precipitates
Following denaturation, the whey proteins coprecipitate with the caseins on
acidification to pH 4.6 or addition of CaCI, at 90°C, to yield a range of
products known as casein-whey protein co-precipitates (Figure 4.43). The
main attraction of such products is an increase in yield of about 15%, but
the products also have interesting functional properties. However, they have
not been commercially successful.
New forms of co-precipitate, referred to as soluble lactoprotein or total
milk protein, with improved solubility, have been developed recently (Figure
4.44). By adjusting the milk to an alkaline pH before denaturing the whey
proteins and co-precipitating them with the caseins at pH 4.6, the function-Skim milkCaCI, addition 0.03%I1
Heating 9OoC x 15 rnin
conditionsPrecipitation Acidify to
conditions p~ 4.6I
Low Ca
co-precipitate0.06%9OoC 10 rninAci a ify to
pH 5.4Medium Ca
cc-precipitate90°C^1 x 2 rnin
CaCI, to
0.20'"High Ca
co-precipita tet
NaOHI
Na salts of co-precipitatesFigure 4.43 Protocols for the manufacture of conventional casein-whey protein co-precipitates
(from Mulvihill, 1992).