Plant-based high internal phase emulsions stabilized by dual protein nanostructures with heat and freeze-thaw tolerance

The formation of coherent, three-dimensional (3D) networks by particles either at the interface or in the bulk phase is vital for the stability of emulsions. In this study, nanoparticles of walnut proteins (WPs) were associated by unfolded fibrillar rice proteins (RPs), forming dual protein nanostructures (DPNs) characteristic of coherent 3D networks. The DPNs emulsified walnut oil and formed high internal phase emulsions (HIPEs), which were stable against 2-month storage and 30-min heating at 95 degrees C. Furthermore, the interfacial structures can be further reinforced by sodium chloride (50 mM and above), and became invulnerable to repeated freeze-thaw treatments. Based on the above results, a plant-based walnut sauce was developed with superior freeze-thaw stability to three arbitrary commercial mayonnaises. The HIPEs with tunable rheological properties in response to salt concentration and excellent stabilities against long-term storage, heating, and freeze-thaw may be potential surrogates of futuristic plant-based textural and sensory materials in foods.

Automated summary

The study shows that dual protein nanostructures formed by walnut proteins and rice proteins exhibit stability in emulsions, and can be further reinforced by adding sodium chloride. The structures can be used to prepare high internal phase emulsions (HIPEs) and plant-based walnut sauce with superior freeze-thaw stability.