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ABSTRACT
The application of protein–polysaccharide complexes as potential structure modifier, fat replacer, or emulsifying agents in food dispersions has gained increasing interest amongst scientists and manufacturers. Based on associative complexation, low biopolymer concentrations are typically used to generate particulated complexes. The current study, however, presents results that focused on the formation of concentrated biopolymer dispersions. A simple heat treatment was applied to tailor the overall water content of the biopolymer dispersion. For that purpose, whey protein isolate (WPI) and citrus pectin (DE 71%) solutions were mixed at different pH and biopolymer ratios to induce complex coacervation and subsequently heat-treated (ϑ = 90–95°C). Phase separation behavior, microstructural, rheological, and electrical properties of the complexes were investigated by surface charge, turbidity, particle size, rheometry, and light microscopy measurements. Results revealed that complexation was induced under acidic conditions, whereas high WPI:citrus pectin ratios led to positive surface charges, promoting the formation of large and dense particles. In addition, concentrated complex dispersions with water contents ≥80% could be manufactured and easily re-dispersed, whereas complexes maintained their particulate structures. Results are of importance for future studies where we intend to incorporate concentrated biopolymer particles as structuring agents in complex food matrices.
GRAPHICAL ABSTRACT
Acknowledgments
This research project was supported by the German Ministry of Economics and Energy (via AiF) and the FEI (Forschungskreis der Ernährungsin-dustrie e.V., Bonn): Project AiF 17876 N.