Abstract
Discharge of whey proteins is still a current practice by small cheese producers. The development of low-cost alternatives for recovery of these proteins is fundamental for small producers who cannot apply expensive techniques. The present study investigated the complex coacervation technique as a cheap technology to recover proteins from sweet whey using carboxymethylcellulose, and the coacervate used as an ingredient in the formulation of probiotic fermented milk. The nutritional properties of whey-carboxymethylcellulose coacervates (WP-CMC) were evaluated in trials with animals (rats) using casein as a reference. All these parameters—the coefficient of feed efficiency (CEA), protein digestibility-corrected amino acid score (PDCAAS), and net protein ratio (NPR), as well as weight gain—were determined to evaluate protein quality. A sensory acceptance test was applied to evaluate the sensory characteristics of the product. The complex coacervation technique recovered 86% of the protein from sweet whey. No significant (p > 0.05) differences were observed in the biological tests for both groups (WP-CMC and Casein groups) when NPR (4.98 to 5.04), digestibility (92.35 to 90.64), and CEA (0.40 to 0.42) were evaluated. Probiotic fermented milk beverage containing WP-CMC (0.78%) and guar gum (0.68%) presented good acceptability as determined by sensory evaluation. WP-CMC can be considered an ingredient with high nutritional and biological value that could be applied in probiotic fermented milk as an alternative to small producers to allocate the residual whey from cheese manufacture.
Highlights
Whey is a residue from artisanal cheese production, and contains high organic load and hard biodegradability [1]
The present study aims to evaluate both the nutritional and technological aspects of whey protein recovered by coacervation technique and its application in probiotic fermented milk
Proteins and lactose were the predominant components in whey-carboxymethylcellulose coacervates (WP-carboxymethylcellulose coacervates (CMC)) and skimmed whey, respectively
Summary
Whey is a residue from artisanal cheese production, and contains high organic load and hard biodegradability [1]. Whey protein-polysaccharide coacervates by complex coacervation technique have been studied to promote protein recovery and may be applied to different types of foods and biomaterials (fat replacers, viscosity agents, coating and encapsulation). This interaction should be adapted and controlled to preserve or to improve the ingredient functionality and the final quality of the products [9]. The present study aims to evaluate both the nutritional and technological aspects of whey protein recovered by coacervation technique and its application in probiotic fermented milk
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