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Fresh White Cheeses from Buttermilk with Polymerized Whey Protein: Texture, Color, Gloss, Cheese Yield, and Peptonization
Buttermilk and whey, despite their documented health and technological potential, are still not sufficiently utilized for the development of new products. In this research, the texture, color, gloss, cheese yield, and peptonization of fresh white cheeses made from buttermilk with the addition of whey proteins after heat treatment were analyzed. Additionally, the influence of the polymerization process on cheese yield and composition was examined. Four fresh white cheese samples were prepared: without a whey protein concentrate (FWC); with a whey protein concentrate (FWC/WPC); with single-heated polymerized whey proteins (FWC/SPWP); and with double-heated polymerized whey proteins (FWC/DPWP). The introduction of whey proteins in buttermilk cheese production increased the cheese yield by over 2-fold. There were no differences in color and gloss between the FWC/SPWP and FWC/DPWP samples. The cheese became glassy and transparent during melting. The content of uncrushed curd that remained white ranged from 27% in FWC/DPWP to 74% in FWC/SPWP.
Determining the Behavior of Water in Buttermilk Cheese with Polymerized Whey Protein Using Differential Scanning Calorimetry and Nuclear Magnetic Resonance Analysis
In this research, the behavior of water in buttermilk cheese with the addition of polymerized whey proteins was determined. Various parameters of the produced cheese, such as texture, color, water activity, and unbound protein fraction, were examined. Four different samples of buttermilk cheese were prepared, including no addition of whey protein concentrate (BMC); addition of whey protein concentrate (BMC/WPC; 5.62%, w/v), single-heated polymerized whey protein (BMC/SPWP; 28%, w/v), and double-heated polymerized whey protein (BMC/DPWP; 28%, w/v). Differential Scanning Calorimetry (DSC) analysis showed that the highest percentage of freezable water in the water fraction and the lowest of unfreezable water was found in buttermilk cheese with WPC and buttermilk cheese with DPWP. Nuclear magnetic resonance (NMR) analysis showed that the relaxation times were longer in buttermilk cheese with WPC, compared to buttermilk cheese with SPWP and DPWP. Single heat treatment of whey proteins increased stickiness almost 3-fold, and double heat treatment had almost a 2-fold increase in work of shear of cheese samples. The calculated total color difference (ΔE) of the cheese samples suggested that those with polymerized whey protein may increase consumer acceptability.