Evaluation of cross-linked enzyme aggregates of Lactobacillus cell-envelope proteinases, for protein degradation

Enzymatic hydrolysis is a widely used approach to improve the functional, nutritionaland physiological properties of food proteins. In this study, cross-linked enzyme aggre-gates (CLEAs) have been prepared from cell-envelope proteinases (CEPs) of Lactobacillusdelbrueckii subsp. lactis 313 and their proteolytic properties have been evaluated using severalfood proteins. We have optimized cross-linking conditions including ammonium sulphateconcentration, incubation temperatures, agitation speed, glutaraldehyde cross-linker con-centration, reaction time and the addition of proteic feeders. Particularly, the presence ofBSA improves retained activity of cross-linked CEP aggregates (CLCEPAs) from 21.5% to 40.9%.Blocking unreacted cross-linking groups on aggregates is important to enhance recyclabil-ity of CLCEPAs. CLCEPAs had attractive thermal stability at 50◦C and it showed enhancedcatalytic activity over long-term storage after lyophilization. We have demonstrated thatCLCEPAs has proteolytic properties on different food proteins including complex (chickenegg albumin, skimmed-milk protein), fractionated (bovine casein, whey protein isolate), andpurified (bovine serum albumin) proteins. Being the first report of CLEAs from lactobacilliCEPs, this study demonstrates the feasibility of using LDL 313 CLCEPAs for degradation ofvarious food proteins.