Ca2+-induced whey protein emulgels for the encapsulation of crystalline nobiletin: Effect of nobiletin crystals on the viscoelasticity
2019
Hu, Yan | Qiao, Shu | Liu, Fei | Lei, Lingling | Li, Bin | Cao, Yanping | Li, Yan
Due to the high crystallization, nobiletin was encapsulated by Ca2+-induced whey protein concentrate (WPC)-stabilized emulgels. Hydroxypropyl methylcellulose (HPMC) was used to regulate the interfacial properties of emulsions and viscoelasticity of emulgels. The formation of nobiletin crystals were monitored in emulgels and after digestion. Micro-rheometer was used to characterize the viscoelasticity of emulgels. Bioaccessibility of nobiletin was determined by an in vitro digestion model. Ca2+ crosslinking increased the particle size of WPC-stabilized emulsion, while HPMC/WPC-stabilized emulsions kept smaller particle size. WPC-stabilized emulgels were more apt to syneresis, which could be prevented in the presence of HPMC. Nobiletin crystallization process in emulgels was delayed by HPMC. In the gelation process, HPMC addition increased the viscosity, but decreased the elasticity of emulgels. HPMC interrupted the crosslinking process of WPC and Ca2+. After destruction, emulgels had lower viscosity and elasticity, which became lower in the presence of HPMC. The fluctuation of mean square displacement profiles could indicate the formation of nobiletin crystals, which reduced the viscosity and elasticity of emulgels. HPMC increased the bioaccessibility of nobiletin. Higher Ca2+ concentration was undesirable to enhance the nobiletin bioaccessibility, depending on the structure of emulgels.
Afficher plus [+] Moins [-]Mots clés AGROVOC
Informations bibliographiques
Cette notice bibliographique a été fournie par National Agricultural Library
Découvrez la collection de ce fournisseur de données dans AGRIS