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Selective Separation of the Major Whey Proteins Using Ion Exchange Membranes

S. Goodall^*, A. S. Grandison^*,1, P. J. Jauregi^* and J. Price

^* Department of Food Biosciences, University of Reading, Whiteknights, Reading RG6 6AP, United Kingdom
Volac International Limited, Felinfach, Lampeter, Ceredigion, Wales, SA48 8AG, United Kingdom

¹ Corresponding author: a.s.grandison{at}reading.ac.uk

Synthetic microporous membranes with functional groups covalently attached were used to selectively separate β-lactoglobulin, BSA, and -lactalbumin from rennet whey. The selectivity and membrane performance of strong (quaternary ammonium) and weak (diethylamine) ion-exchange membranes were studied using breakthrough curves, measurement of binding capacity, and protein composition of the elution fraction to determine the binding behavior of each membrane. When the weak and strong anion exchange membranes were saturated with whey, they were both selective primarily for β-lactoglobulin with less than 1% of the eluate consisting of -lactalbumin or BSA. The binding capacity of a pure β-lactoglobulin solution was in excess of 1.5 mg/cm² of membrane. This binding capacity was reduced to approximately 1.2 mg/cm² when using a rennet whey solution (pH 6.4). This reduction in protein binding capacity can be explained by both the competitive effects of other whey proteins and the effect of ions present in whey. Using binary solution breakthrough curves and rennet whey breakthrough curves, it was shown that -lactalbumin and BSA were displaced from the strong and weak anion exchange membranes by β-lactoglobulin. Finally, the effect of ionic strength on the binding capacity of individual proteins for each membrane was determined by comparing model protein solutions in milk permeate (pH 6.4) and a 10 mM sodium phosphate buffer (pH 6.4). Binding capacities of β-lactoglobulin, -lactalbumin, and BSA in milk permeate were reduced by as much as 50%. This reduction in capacity coupled with the low binding capacity of current ion exchange membranes are 2 serious considerations for selectively separating complex and concentrated protein solutions.

Key Words: whey protein • ion exchange membrane • selective separation