Quantification of the kokumi peptide, γ-glutamyl-valyl-glycine, in cheese: Comparison between cheese made from cow and ewe milk

Elucidation of the Molecular Mechanism of Bovine Milk γ-Glutamyltransferase Catalyzed Formation of γ-Glutamyl-Valyl-Glycine

γ-Glu-Val-Gly (γ-EVG) is a potent kokumi peptide that can be synthesized through the transpeptidase reaction catalyzed by γ-glutamyl transferase from bovine milk (BoGGT). To explore the molecular mechanism between BoGGT and l-glutamine, γ-glutamyl peptides were generated through the transpeptidase reaction catalyzed by BoGGT at various reaction conditions. Quantitation of γ-glutamyl peptides, structure prediction of BoGGT, molecular docking, and molecular dynamic simulations were performed. Membrane-free BoGGT had a higher transpeptidase activity with Val-Gly as an acceptor than membrane BoGGT. The suitable conditions for γ-EVG production using BoGGT were 100 mM Val-Gly, 20 mM Gln, 1.2 U/mL BoGGT, pH 8.5, and 37 °C, and 13.1 mM γ-EVG was produced. The hydrogen bonds are mainly formed between residues from the light subunit of BoGGT (Thr380, Thr398, Ser450, Ser451, Met452, and Gly473) and the l-glutamine donor. NaCl might inhibit the transpeptidase activity by destroying the hydrogen bonds between BoGGT and l-glutamine, thereby increasing the distance between the hydroxyl oxygen atom on Thr380 of BoGGT and the amide carbon atom on l-glutamine.

Novel insight into the transformation of peptides and potential benefits in brown fermented goat milk by mesoporous magnetic dispersive solid phase extraction-based peptidomics

Brown fermented goat milk as an excellent source of bioactive peptides has only been partially elucidated. Meticulously synthesized MOF@MG as magnetic sorbent for enriching endogenous peptides owned higher reproducibility and uniform distribution of peptides PI compared with ultrafiltration. Combined with UHPLC-Q-Orbitrap, fermentation for 12 h in brown goat milk with the highest overall acceptable degree through sensory evaluation was utilized to explore the transformation of peptides and health benefits, with trypsin or plasmin hydrolyzing proteins and aminopeptidase or carboxypeptidase hydrolyzing peptides to small peptides or amino acids. A total of 1317 peptides were identified by database matching (1259) and de novo sequencing (58), among 18 peptides could originate from gene-independent enzymatic formation and top 25 characteristic peptides were quantified with concentration ranging from 0.12 to 6.40 mg L^-1. Bioinformatic analysis results indicated that brown fermented goat milk possesses higher health benefits because of more than 50 peptides with potential bioactivity.