In this study, high hydrostatic pressure treatment of lactoferrin was used to investigate its effect on the hydrolysis and antioxidant activity of lactoferrin. The results showed that high hydrostatic pressure treatment at 600 MPa increased the exposure level of tryptophan residues of lactoferrin by 82.29%, which significantly altered the tertiary structure of lactoferrin, and this change was observed in scanning electron microscopy as an increase in the contact area of lactoferrin that could be contacted by proteases. Pressure treatments of 400 MPa and above increased the hydrolysis of lactoferrin for gastrointestinal digestion by 21.19%, which increased the release of antioxidant-related amino acids and increased the free radical scavenging capacity of lactoferrin intestinal digestive fluid by 35.12%. Meanwhile, two lactoferrin antioxidant peptides, QAYPNLCQLCK and NCPDKFCLFK, were identified in the lactoferrin intestine digest. These findings indicate that high hydrostatic pressure treatment could be a potentially beneficial method for processing lactoferrin.
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| http://dx.doi.org/10.1016/j.foodchem.2023.137350 | DOI Listing |
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