Skelte G. Anema scite author profile

Reconstituted whole milk was heated using pilot-scale heating equipment. Kinetic and thermodynamic parameters for the irreversible denaturation of β-lactoglobulins A and B and R-lactalbumin were determined. R-Lactalbumin denaturation was first order, whereas both β-lactoglobulin variants had a reaction order of 1.5. Arrhenius plots for all three proteins showed an abrupt change in temperature dependence. In the low-temperature range, the thermodynamic parameters were ascribed to typical denaturation processes in which the unfolding of the protein tertiary structure is the rate-determining step. At higher temperatures, these parameters were in the range expected for typical condensation reactions, suggesting that aggregation processes may be rate-determining in this temperature range. The rate constants for β-lactoglobulin denaturation were independent of the initial protein concentration at all temperatures. For R-lactalbumin at temperatures below 85 °C the rate constants may have been dependent on the initial R-lactalbumin concentration as higher rate constants were observed with decreasing protein concentrations.

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Association of denatured whey proteins with casein micelles in heated reconstituted skim milk and its effect on casein micelle size

Anema

2003

Journal of Dairy Research

306

229

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When skim milk at pH 6·55 was heated (75 to 100 °C for up to 60 min), the casein micelle size, as monitored by photon correlation spectroscopy, was found to increase during the initial stages of heating and tended to plateau on prolonged heating. At any particular temperature, the casein micelle size increased with longer holding times, and, at any particular holding time, the casein micelle size increased with increasing temperature. The maximum increase in casein micelle size was about 30–35 nm. The changes in casein micelle size were poorly correlated with the level of whey protein denaturation. However, the changes in casein micelle size were highly correlated with the levels of denatured whey proteins that were associated with the casein micelles. The rate of association of the denatured whey proteins with the casein micelles was considerably slower than the rate of denaturation of the whey proteins. Removal of the whey proteins from the skim milk resulted in only small changes in casein micelle size during heating. Re-addition of β-lactoglobulin to the whey-protein-depleted milk caused the casein micelle size to increase markedly on heat treatment. The changes in casein micelle size induced by the heat treatment of skim milk may be a consequence of the whey proteins associating with the casein micelles. However, these associated whey proteins would need to occlude a large amount of serum to account for the particle size changes. Separate experiments showed that the viscosity changes of heated milk and the estimated volume fraction changes were consistent with the particle size changes observed. Further studies are needed to determine whether the changes in size are due to the specific association of whey proteins with the micelles or whether a low level of aggregation of the casein micelles accompanies this association behaviour. Preliminary studies indicated lower levels of denatured whey proteins associated with the casein micelles and smaller changes in casein micelle size occurred as the pH of the milk was increased from pH 6·5 to pH 6·7.

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Effects of storage temperature on the solubility of milk protein concentrate (MPC85)

et al. 2006

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Interactions of milk proteins during heat and high hydrostatic pressure treatments — A Review

Considine

Patel

Anema

et al. 2007

Innovative Food Science & Emerging Technologies

295

194

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Skelte G. Anema

Reaction Kinetics of Thermal Denaturation of Whey Proteins in Heated Reconstituted Whole Milk

Association of denatured whey proteins with casein micelles in heated reconstituted skim milk and its effect on casein micelle size

Effects of storage temperature on the solubility of milk protein concentrate (MPC85)

Interactions of milk proteins during heat and high hydrostatic pressure treatments — A Review

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