LAUSR

Herein, the effects of vacuum freeze-drying treatment of tilapia skin on the properties of skin, the molecular properties of extracted gelatins, and the emulsion stabilization properties of extracted gelatins were studied. The results suggested that all the bound, entrapped, and free water molecules were simultaneously sublimated (quickly at the first 30 min and then slowly) by sublimation in the vacuum freeze-drying process. Long vacuum freeze-drying times (60 and 150 min) decreased the amount of the four bands in SDS-PAGE pattern, increased β-sheet and random coil percentages, and decreased other three secondary structure percentages of extracted gelatins. Finally, vacuum freeze-drying of tilapia skin increased the emulsion stability of fish oil-loaded oil-in-water emulsions. This work provided basic knowledges to illustrate the effect of vacuum freeze-drying of protein-enriched tissues on the molecular and functional properties of extracted proteins. It also provided a potential route to increase the emulsion stabilization ability of proteins.