Overcoming harsh gastric environment is still a challenging to bioactive proteins, microencapsulation provides one strategy in designing this protection barrier. In this work, bovine serum albumin and ovalbumin were chosen as model proteins, while polylysine-alginate complex was fabricated for microencapsulation purpose. Both of the protein-loaded microcapsules had regular internal microstructures. The model protein's embedding increased the thermal stability of the microcapsules. Both of the protein-loaded microcapsules had a slow release rate in simulated gastric fluids (pH 3.0), while a sustained release profile in simulated intestinal fluids (pH 6.4), indicating an excellent tolerance to the acidic gastric environment. The microencapsulation process was mild and had no influence on the protein's molecular weight, while a slight peak shifting occurred in the secondary structure of the released proteins. The developed microcapsules could be explored as a kind of vehicle for bioactive proteins applied in functional foods, health care products and medical formulations.
Keywords: Bovine serum albumin; Fluorescein isothiocyanate (PubChem CID: 18730); Ovalbumin; Ovalbumin (PubChem CID: 56832351); Polyelectrolyte complex microcapsule; Polylysine; Polylysine (PubChem CID: 162282); Sodium alginate; Sodium alginate (PubChem CID: 5102882); Sustained release.
Copyright © 2021 Elsevier Ltd. All rights reserved.