Ultrasound-assisted phosphorylation cantaloupe seed protein isolate-curcumin complexes prepared by pH shift treatment: Structural and functional properties.
Jiankang Lu, Ruihua Zhang, Mingyan Ai, Chunlan Zhang, Shuting Li, Ruili Zhang, Weihua Wang, Zhiqiang Zhou, Yiming Jia, Zuoli Zhang, Shugang Li
Abstract
Open AccessThe efficient loading of proteins on bioactive substances had been a research hotspot in the fields of food science and industry in recent years. The complex of ultrasound-assisted phosphorylated cantaloupe seed protein isolate (UP-CSPI) and curcumin (CUR) was prepared by pH shift method to investigate the effects of different concentrations of CUR on the structure and functional properties of UP-CSPI. The results showed that with the increase of CUR concentration, the zeta potential, the antioxidant activity and emulsifying performance of the complex improved. The interaction between CUR and UP-CSPI was a spontaneous reaction driven by Gibbs free energy (ΔG<0). The enthalpy change (ΔH) and entropy change (ΔS)>0, indicating mainly hydrophobic interaction. Furthermore, CUR caused changes in the secondary structure of the UP-CSPI, β-turns increased from 38.33 % to 45 %-47 %, random coils decreased from 25.85 % to 13 %-14 %. In conclusion, the binding of CUR to proteins through pH shift had solved the problem of CUR instability and also provided new insights for the development and application of plant protein-based delivery systems.