The conformation and physico-chemical properties of pH-treated golden pompano protein on the oil/water interfacial properties and emulsion stability

The influence of pH (3.0, 5.0, 7.0 and 9.0) on the conformation, physico-chemical properties, interfacial properties and emulsion stability of golden pompano protein (GPP) was investigated. The conformation structures of GPP were characterised by Fourier transform-infrared spectroscopy and intrinsic emission fluorescence spectroscopy. The particle size, zeta-potential and solubility of GPP were also investigated. The interfacial properties were characterised by the interfacial tension and the percentage of absorbed protein at the oil/water interface. GPP under pH 3.0 displayed a lowest interfacial tension, the highest emulsifying stability index value. Creaming stability, viscosity and microstructure of the emulsion stabilised by GPP under different oil/water ratios (2:8, 3:7, 4:6 and 5:5) (v/v) were also investigated. The increase of the oil/water ratio increased the viscosity of the continuous phase, thereby improving the emulsion stability. The conformational changes of GPP significantly affected their physico-chemical and interfacial properties, thus improving GPP-stabilised emulsion stability.