Binding parameters and molecular dynamics of β-lactoglobulin-vanillic acid complexation as a function of pH - part B: Neutral pH

• Published in: Food chemistry Vol. 367; p. 130655
• Main Authors: Abdollahi, Kourosh, Condict, Lloyd, Hung, Andrew, Kasapis, Stefan
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.01.2022
• Subjects: Molecular dynamics simulations; pH 7.2; Spectroscopy; Vanillic acid; β-Lactoglobulin; Spectroscopy; Vanillic acid; Molecular dynamics simulations; β-Lactoglobulin; pH 7.2
• ISSN: 0308-8146; 1873-7072
• DOI: 10.1016/j.foodchem.2021.130655

•Two ligand molecules can participate in binding with the dimer of β-lactoglobulin.•The ligand is located at the entrance of each β-barrel structure of the dimer.•Binding affinity was found to be lower when β-lactoglobulin was in dimer form. Interactions between the dimeric form of β-lactoglobulin and vanillic acid were investigated at pH 7.2, using a variety of spectroscopic techniques and molecular dynamics (MD) simulations. FTIR and CD studies showed alterations in the secondary structure of the protein upon its interaction with the ligand. Fluorescence measurements indicated that the dimeric complex with the phenolic acid produced a large dissociation constant (KD) compared to the monomeric counterpart at acidic pH (part A of this series). Stoichiometry of 1:1 was identified for the β-lactoglobulin-vanillic acid complex by Job plot analysis at neutral pH suggesting two ligand molecules can participate in binding with the dimer. Molecular docking and MD simulations suggested that the top-ranked binding sites of the ligand were located at the entrance of each β-barrel structure of the dimer. These simulations also allowed identification of the contribution of water molecules, in the form of protein-water-ligand bridging interactions, to the complexes.