Screening of a growing cell immobilization procedure for the biosynthesis of thermostable α-amylases

Studies were carried out on α-amylase production with immobilized cells of twoBacillus strains. High yields of thermostable αamylases were obtained byBacillus licheniformis 44MB82-G, resistant to glucose catabolite repression and a thermophileBacillus brevis 174, after repeated batch cultivation (270–600 h) of the immobilized biocatalysts. Various cell immobilization techniques were compared, including entrapment in gel matrices (Ca-alginate,x-carrageenan, agar, and their combinations with polyethylene oxide), adsorption on cut disks of polymerized polyethylene oxide, and fixation on formaldehyde activated acrylonitrile-acrylamide membranes. The optimal immobilization parameters (gel and biocatalyst concentration, initial cell quantity) were determined. Among the gels and supports tested, agar,x-carrageenan, agar/polyethylene oxide gels, and the membranes were found to be suitable for immobilization and biocatalysts with high operational stabilities were obtained. An enzyme yield of 2750 U/mL culture medium was reached in the fifth repeated batch run with membrane-immobilizedBacillus licheniformis cells. This activity represented 176% of the corresponding yield obtained in batch fermentation with free cells. Higher amylase yields than the activity of the control were reached in all experiments and repeated batch runs with immobilizedBacillus brevis cells.