Improving antioxidant ability of functional emulsifiers by conjugating polyphenols to sodium caseinate

Sodium caseinate (NaCas), a commonly used food emulsifier, is prone to oxidation, resulting in decreased emulsion quality and stability. This study aims to understand the effect of polyphenol structures on protein's antioxidant activity and develop protein-polyphenol complexes (PPCs) with bette...

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Bibliographic Details
Published in:Food science & technology 2022-01, Vol.154, p.112668, Article 112668
Main Authors: Gong, Tian, Tian, Dan, Hu, Ching Yuan, Guo, Yu Rong, Meng, Yong Hong
Format: Article
Language:English
Subjects:
Antioxidant ability
Binding nature
Caseinate sodium
Molecular level
Polyphenol structure
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Summary:Sodium caseinate (NaCas), a commonly used food emulsifier, is prone to oxidation, resulting in decreased emulsion quality and stability. This study aims to understand the effect of polyphenol structures on protein's antioxidant activity and develop protein-polyphenol complexes (PPCs) with better physical and oxidation stabilities. NaCas' antioxidant abilities with or without polyphenols were examined by DPPH, FRAP, and β-carotene blenching test. The binding mechanism between protein and polyphenols was also investigated using multispectral technology and molecular docking. The results show that the addition of kaempferol, phloretin, catechin, resveratrol, and hydroxytyrosol improved NaCas' free radicals scavenging ability, reducing power and lipid protection effect. In contrast, adding apigenin, coumarin, p-hydroxybenzoic acid, and p-coumaric acid caused unsatisfactory results. The number and location of free phenolic hydroxyl groups, the binding affinity between protein and polyphenol, and protein conformation are the criteria dictating the antioxidant properties of PPCs. Finally, four novel antioxidant emulsifiers were obtained, including NaCas-catechin, NaCas-resveratrol, NaCas-phloretin, and NaCas-hydroxytyrosol complexes. Our results explored the potential application of nano-delivering functional oil using PPCs as antioxidant emulsifiers. •Polyphenol binding can significantly improve NaCas' antioxidant abilities.•O–H groups' number and location are the keys to affecting PPCs' antioxidant abilities.•NaCas' conformational changes may promote NaCas' antioxidant abilities.•Four NaCas-polyphenol complexes are potential antioxidant emulsifiers.•PPCs as an antioxidant emulsifier can be used to extend emulsions' shelf life.
ISSN:0023-6438
1096-1127
DOI:10.1016/j.lwt.2021.112668