作者:Ninglong Zhang , Zhiyong Cui , Mingyang Li , Yuxia Fan , Jing Liu , Wenli Wang , Yin Zhang , Yuan Liu
期刊:Journal of Agricultural and Food Chemistry
摘要:Umami taste receptor type 1 member 1/3 (T1R1/T1R3) heterodimer has multiple ligand-binding sites, most of which are located in T1R1-Venus flytrap domain (T1R1-VFT). However, the critical binding process of T1R1-VFT/umami ligands remains largely unknown. Herein, T1R1-VFT was prepared with a sufficient amount and functional activity, and its binding characteristics with typical umami molecules (monosodium l-glutamate, disodium succinate, beefy meaty peptide, and inosine-5′-monophosphate) were explored via multispectroscopic techniques and molecular dynamics simulation. The results showed that, driven mainly by hydrogen bond, van der Waals forces, and electrostatic interactions, T1R1-VFT bound to umami compound at 1:1 (stoichiometric interaction) and formed T1R1-VFT/ligand complex (static fluorescence quenching) with a weak binding affinity (Ka values: 252 ± 19 to 1169 ± 112 M–1). The binding process was spontaneous and exothermic (ΔG, −17.72 to −14.26 kJ mol–1; ΔH, −23.86 to −12.11 kJ mol–1) and induced conformational changes of T1R1-VFT, which was mainly reflected in slight unfolding of α-helix (Δα-helix < 0) and polypeptide chain backbone structure. Meanwhile, the binding of the four ligands stabilized the active conformation of the T1R1-VFT pocket. This work provides insight into the binding interaction between T1R1-VFT/umami ligands and improves understanding of how umami receptor recognizes specific ligand molecules.
DOI:10.1021/acs.jafc.2c05559
Cite:Zhang N, Cui Z, Li M, et al. Typical Umami Ligand-Induced Binding Interaction and Conformational Change of T1R1-VFT[J]. Journal of Agricultural and Food Chemistry, 2022, 70(37): 11652-11666.
