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Casein–phenol interactions occur during digestion and affect bioactive peptide and phenol bioaccessibility

Aytül Hamzalıoğlu, Silvia Tagliamonte, Vural Gökmen, Paola Vitaglione

2023Food & Function16 citationsDOIOpen Access PDF

Abstract

. Total antioxidant capacity (TAC), degree of hydrolysis, and bioactive peptide formation were assessed in the samples collected through the digestion. The results showed that bioaccessible TAC was 1.17 to 1.93-fold higher in CN co-digested with phenol compounds than initially due to a higher release of antioxidant peptides in the presence of phenolic compounds. However, TAC values in the intestinal insoluble part of CN-phenol digests were higher than the initial, indicating that such interactions may be functional to transport phenols to the colon. Bioactive peptide release was affected by the phenol type (catechins were the most effective) as well as phenol concentration. As an opioid peptide released from β-CN, β-casomorphin formation was significantly influenced by the co-digestion of CN with phenol compounds. This study confirmed the possible CN-phenol interaction during digestion, affecting bioactive peptide release.

Topics & Concepts

ChemistryPhenolPolyphenolPhenolsPeptideDigestion (alchemy)CaseinHydrolysisAntioxidantAmino acidHydrolysateChlorogenic acidBiochemistryFood scienceChromatographyOrganic chemistryProtein Hydrolysis and Bioactive PeptidesConsumer Attitudes and Food LabelingProteins in Food Systems
Casein–phenol interactions occur during digestion and affect bioactive peptide and phenol bioaccessibility | Litcius