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New perspectives on the taste mechanisms of umami and bitter peptides in low-salt fermented fish sauce based on peptidomics, molecular docking and molecular dynamics

Jiarun Han, Hangjia Zhang, Qi Wang, Lina Ding, Jiaqi Yin, Jinfeng Wu, Shi Hu, Ping Li, Qing Gu

2025Food & Function8 citationsDOI

Abstract

. Based on the low molecular docking energy with T1R1/T1R3 and TAS2R14, core umami (U6-RDEDLAP, U10-EPAEREFEFI, U18-PDEWEVAR) and bitter (B11-LAGICFV, B26-IGVNLTFF, B68-KTGPDPIPP) peptides were selected with hydrogen bonds and salt bridges as the primary forces, of which amino acid residues Arg, Glu, Asn, Lys, Gly, and Phe were mainly involved in ligand-receptor binding. Six novel taste peptides were further verified using the electronic tongue technique, among which U10 and B68 exhibited higher taste intensity, which might be related to their effective binding with the corresponding receptors. This study offers a theoretical foundation for screening novel high-intensity taste peptides in low-salt fish sauce, providing valuable insights into peptide-based taste enhancement based on microbial metabolism.

Topics & Concepts

UmamiChemistryTasteMechanism (biology)FermentationDocking (animal)Bitter tasteBiochemistryComputational biologyFood scienceBiologyMedicineNursingPhilosophyEpistemologyBiochemical Analysis and Sensing TechniquesProtein Hydrolysis and Bioactive PeptidesMeat and Animal Product Quality
New perspectives on the taste mechanisms of umami and bitter peptides in low-salt fermented fish sauce based on peptidomics, molecular docking and molecular dynamics | Litcius