High pressure-induced denaturation of α-lactalbumin and β-lactoglobulin in bovine milk and whey: a possible mechanism

Thom Huppertz; Patrick F Fox; Alan L Kelly

doi:10.1017/S0022029904000500

Abstract

In this study, high pressure (HP)-induced denaturation of α-lactalbumin (α-la) and β-lactoglobulin (β-lg) in dairy systems was examined. In both milk and whey, β-lg was less baroresistant than α-la; both proteins were considerably more resistant to HP-induced denaturation in whey than in milk. HP-induced denaturation of α-la and β-lg increased with increasing proportion of milk in mixtures of milk and whey. Addition of a sulphydryl-oxidising agent, KIO3, to milk or whey increased HP-induced denaturation of β-lg, but reduced the denaturation of α-la. Denaturation of both α-la and β-lg was prevented by adding a sulphydryl-blocking agent, N-ethylmaleimide, to milk or whey prior to HP treatment, highlighting the crucial role of sulphydryl-disulphide interchange reactions in HP-induced denaturation of α-la and β-lg. Removal of colloidal calcium phosphate from milk also reduced HP-induced denaturation of α-la and β-lg significantly. The higher level of HP-induced denaturation of α-la and β-lg in milk than in whey may be the result of the abscence of the casein micelles and colloidal calcium phosphate from whey, which facilitate HP-induced denaturation of α-la and β-lg in milk.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Zobrist, M.R. Huppertz, T. Uniacke, T. Fox, P.F. and Kelly, A.L. 2005. High-pressure-induced changes in the rennet coagulation properties of bovine milk. International Dairy Journal, Vol. 15, Issue. 6-9, p. 655.

Huppertz, Thom Fox, Patrick F. de Kruif, Kees G. and Kelly, Alan L. 2006. High pressure-induced changes in bovine milk proteins: A review. Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics, Vol. 1764, Issue. 3, p. 593.

Orlien, Vibeke Knudsen, Jes C. Colon, Mireia and Skibsted, Leif H. 2006. Dynamics of casein micelles in skim milk during and after high pressure treatment. Food Chemistry, Vol. 98, Issue. 3, p. 513.

López-Fandiño, Rosina 2006. High pressure-induced changes in milk proteins and possible applications in dairy technology. International Dairy Journal, Vol. 16, Issue. 10, p. 1119.

HUPPERTZ, THOM SMIDDY, MARY A UPADHYAY, VIVEK K and KELLY, ALAN L 2006. High‐pressure‐induced changes in bovine milk: a review. International Journal of Dairy Technology, Vol. 59, Issue. 2, p. 58.

Monaci, Linda Tregoat, Virginie van Hengel, Arjon J. and Anklam, Elke 2006. Milk allergens, their characteristics and their detection in food: A review. European Food Research and Technology, Vol. 223, Issue. 2, p. 149.

Tromelin, A. Andriot, I. and Guichard, E. 2006. Flavour in Food. p. 172.

Krešic, Greta Lelas, Vesna Herceg, Zoran and Režek, Anet 2006. Effects of high pressure on functionality of whey protein concentrate and whey protein isolate. Le Lait, Vol. 86, Issue. 4, p. 303.

Tamime, A.Y. and Robinson, R.K. 2007. Tamime and Robinson's Yoghurt. p. 13.

Kleber, Nicole Maier, Silvia and Hinrichs, Jörg 2007. Antigenic response of bovine β-lactoglobulin influenced by ultra-high pressure treatment and temperature. Innovative Food Science & Emerging Technologies, Vol. 8, Issue. 1, p. 39.

Moatsou, Golfo Bakopanos, Constantinos Katharios, Dimitis Katsaros, George Kandarakis, Ioannis Taoukis, Petros and Politis, Ioannis 2008. Effect of high-pressure treatment at various temperatures on indigenous proteolytic enzymes and whey protein denaturation in bovine milk. Journal of Dairy Research, Vol. 75, Issue. 3, p. 262.

Zeece, Michael Huppertz, Thom and Kelly, Alan 2008. Effect of high-pressure treatment on in-vitro digestibility of β-lactoglobulin. Innovative Food Science & Emerging Technologies, Vol. 9, Issue. 1, p. 62.

Grácia-Juliá, Alvar René, Malika Cortés-Muñoz, Marianela Picart, Laëtitia López-Pedemonte, Tomás Chevalier, Dominique and Dumay, Eliane 2008. Effect of dynamic high pressure on whey protein aggregation: A comparison with the effect of continuous short-time thermal treatments. Food Hydrocolloids, Vol. 22, Issue. 6, p. 1014.

Patel, Hasmukh A. and Creamer, Lawrence K. 2008. Milk Proteins. p. 205.

Anema, Skelte G. 2008. Effect of milk solids concentration on whey protein denaturation, particle size changes and solubilization of casein in high-pressure-treated skim milk. International Dairy Journal, Vol. 18, Issue. 3, p. 228.

Vallons, Katleen J.R. and Arendt, Elke K. 2009. Effects of high pressure and temperature on the structural and rheological properties of sorghum starch. Innovative Food Science & Emerging Technologies, Vol. 10, Issue. 4, p. 449.

Kelly, A.L. Kothari, K.I. Voigt, D.D. and Huppertz, T. 2009. Dairy-Derived Ingredients. p. 417.

Vallons, Katleen J. R. and Arendt, Elke K. 2009. Effects of high pressure and temperature on buckwheat starch characteristics. European Food Research and Technology, Vol. 230, Issue. 2, p. 343.

Huppertz, T. 2010. Improving the Safety and Quality of Milk. p. 373.

Vallons, Katleen J.R. and Arendt, Elke K. 2010. Understanding high pressure-induced changes in wheat flour–water suspensions using starch–gluten mixtures as model systems. Food Research International, Vol. 43, Issue. 3, p. 893.

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High pressure-induced denaturation of α-lactalbumin and β-lactoglobulin in bovine milk and whey: a possible mechanism

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High pressure-induced denaturation of α-lactalbumin and β-lactoglobulin in bovine milk and whey: a possible mechanism

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