Environmental Influences on Purified kappa-Casein: Disulfide Interactions

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Environmental Influences on Purified $kappa$ -Casein: Disulfide Interactions

H. M. Farrell Jr. ¹, E. D. Wickham ¹, and M. L. Groves ¹

¹ US Department of Agriculture, ARS, Eastern Regional Research Center, 600 E. Mermaid Lane, Wyndmoor, PA 19038

Bovine $kappa$ -casein, the stabilizing protein of the colloidal milkprotein complex, has a unique pattern of disulfide bonding.The protein exhibits varying molecular sizes on SDS-PAGE (sodiumdodecyl sulfate-polyacrylamide gel electrophoresis), rangingfrom monomer to octamer and above in the absence of reducingagents. Heat treatment of the samples with SDS prior to electrophoresiscaused an apparent decrease in polymeric distribution: up to60% became monomers after 30 min at 90°C as estimated bydensitometry of SDS-PAGE. In contrast, heat treatment of thesamples without detergent at 90 or 37°C significantly increasedin high molecular weight polymers, as judged by electrophoresisand analytical ultracentrifugation. In 6 M urea, the proteincould be completely reduced by dithiothreitol, but, upon dialysis,varying degrees of polymer reformation occurred, depending onthe dialysis conditions. Spontaneous reoxidation to polymericforms is favored at low pH (<5.15) and low ionic strength.The results are discussed with respect to the influence of themethod of preparation on the polymer size of $kappa$ -casein and onits resultant physical chemical properties.

Key Words: casein structure • molecular mass • disulfide interactions

Submitted on June 23, 1997
Accepted on March 16, 1998

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Environmental Influences on Purified -Casein: Disulfide Interactions

Environmental Influences on Purified $kappa$ -Casein: Disulfide Interactions