Journal
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
Volume 626, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.colsurfa.2021.126806
Keywords
Emulsion; Ovalbumin; Protein-polysaccharides conjugates; beta-carotene; Stability; Bio-accessibility
Categories
Funding
- National Key Research and Development Program of China [2018YFD0400303]
- Program of National Natural Science Foundation of China [31701530]
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Covalent binding with a polysaccharide is a simple and reliable way to improve the emulsifying behaviour of a protein. The modified OVA by Dex under different heating conditions had significant effects on the stability and digestion of emulsions. OVA-Dex-MH conjugates showed better stability and higher encapsulation rate of beta-carotene in emulsions, making them potential for stable emulsion-based delivery systems.
A simple reliable way of improving the emulsifying behaviour of a protein is through covalent binding with a polysaccharide. Thus the effects of ovalbumin (OVA) after modified by dextran (Dex) under traditional wet heating (WH) or microwave heating (MH) on stabilisation and digestion of alpha-carotene emulsions were comprehensively studied. The emulsifying activity and emulsion stability of OVA were improved significantly after Dex covalent modification under WH or MH condition. OVA-Dex-MH conjugates performed better than OVA and OVA-Dex-WH conjugates in producing an extremely narrow size distribution and high encapsulation rate of beta-carotene in emulsion. In addition, OVA-Dex-MH conjugates were considerably more effective in oil droplet stabilization against acidic/alkaline conditions (pH 3.0-10.0), high ionic strength (150 mM NaCl) and high temperature (90 degrees C for 30 min), consistent with the results of apparent viscosity analysis that the flow behavior index of beta-carotene emulsions stabilized by OVA-Dex conjugates decreased compared with that of OVAstabilized emulsion. Moreover, in the first 30 min of digestion, the degrees of lipolysis in emulsions stabilized by OVA, OVA-Dex-MH, and OVA-Dex-WH conjugates were 60.88%, 80.77%, and 75.32%. However, no significant difference was observed in the protein digestion and bio-accessibility of beta-carotene. These results proved that OVA-Dex-MH conjugates have the potential to form stable, food-grade emulsion-based delivery systems against environmental stresses.
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