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Abstract:
The application of natural biopolymers to develop colloidal carriers for delivering hydrophobic bioactive molecules has become one of the hottest topics in food science. In this study, a simple pH-driven method to prepare whey protein nanofibrils stabilized zein nanoparticles was developed. The formation, structure, intermolecular interactions, rheological properties, in vitro digestion, and antioxidant activity of the nanoparticles were investigated. When the mass ratio of zein and whey protein nanofibrils was 1:0.8, the hydrodynamic diameter and zeta potential of the nanoparticles were 413 nm and - 25 mV, respectively. Transmission electron microscope photographs showed that the nanoparticles were a spherical core-shell structure. Fourier transform infrared spectroscopy and surface hydrophobicity measurements indicated that whey protein nanofibrils adsorbed to the surface of zein aggregates through hydrogen bonding and hydrophobic interactions. Differential scanning calorimetry tests confirmed the formation of nanoparticles improved the thermal stability of zein and whey protein nanofibrils. The nanoparticles exhibited less shear-thinning behavior with low apparent viscosity, and it can\'t be degraded in simulated gastric fluid but can be in simulated intestinal fluid. The antioxidant activity of the nanoparticles was increased by in vitro antioxidant assay when compared to whey protein nanofibrils. This new technology to develop zein-whey protein nanoparticles may be used for preparing nanoparticles of other similar hydrophobic food ingredients. And the findings of this study may provide a theoretical basis for preparation of nanoparticles as a nutrient delivery system.
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