Henning Klostermeyer scite author profile

The effect of pH (6.3−7.1) and temperature (20−90 °C) on the dissociation of casein from the micelles in reconstituted skim milk was investigated. These pH conditions encompass those naturally found, whereas heat treatments below 100 °C are commonly encountered during the processing of milk and milk products. Low levels of casein were rendered soluble at pH below 6.7 regardless of heating temperature, whereas increasing levels of casein were solubilized as the pH was increased from 6.7 to 7.1. This pH-dependent dissociation of the casein micelles showed an unusual dependence on temperature. Low levels of casein were dissociated at 20 °C at all pH values. The quantity of casein solubilized increased with temperature to a maximum dissociation at about 70 °C and then decreased at higher temperatures. The dissociation behavior of αs-casein and β-casein at pH ≥ 6.7 showed dependence on temperature similar to that of the total casein. In contrast, above pH 6.5, the dissociation of κ-casein increased essentially linearly with increasing temperature over the entire temperature range studied. The proportion of β-casein in the soluble casein was essentially constant regardless of the temperature and pH, whereas the proportions of αs-casein and κ-casein varied with both temperature and pH. The results of this study have indicated that, at certain pH, a marked dissociation of protein from the casein micelles occurs on heating at temperatures below 100 °C; this phenomenom has not previously been reported to occur under such mild heating conditions. Keywords: Casein micelles; dissociation; heat treatment; reconstituted skim milk

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Simultaneous determination of amino acids and biogenic amines by reversed-phase high-performance liquid chromatography of the dabsyl derivatives

Krause

Bockhardt

Neckermann

et al. 1995

Journal of Chromatography A

198

145

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Rheological Properties of Acid Gels Prepared from Heated pH-Adjusted Skim Milk

Anema

Lee

Lowe

et al. 2003

J. Agric. Food Chem.

128

109

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Reconstituted skim milk was adjusted to pH values between 6.5 and 7.1 and heated (90 degrees C) for up to 30 min. The skim milk samples were then readjusted to pH 6.7. Acid gels prepared from heated milk had markedly higher G ' values, a reduced gelation time, and an increased gelation pH than those prepared from unheated milk. An increased pH at heating decreased the gelation time, increased the gelation pH, and increased the final G ' of acid set gels prepared from the heated milk samples. There were only small differences in the level of whey protein denaturation in the samples at different pH values, and these differences could not account for the differences in the G ' of the acid gels. The levels of denatured whey protein associated with the casein micelles decreased and the levels of soluble denatured whey proteins increased as the pH at heating was increased. The results indicated that the soluble denatured whey proteins had a greater effect on the final G ' of the acid gels than the denatured whey proteins associated with the casein micelles.

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