Biotechnology Progress, Vol.18, No.6, 1221-1226, 2002
Reversible immobilization of invertase on Sepabeads coated with polyethyleneimine: Optimization of the biocatalyst's stability
Invertase from S. cerevisiae has been immobilized by ionic adsorption on Sepabeads fully coated with PEI. The enzyme was strongly adsorbed on the support (no desorption of the invertase was found under conditions in which all of the enzyme was released from conventional anionic exchanger supports (e.g., DEAE-agarose)). Nevertheless, the enzyme could still be desorbed after its inactivation, and new: fresh enzyme could be adsorbed on the supports without detrimental effects on enzyme loading. This is a multimeric enzyme, its minimal oligomerization active. state being the dimer, but under certain conditions of pH and concentration it may give larger multimers. Very interestingly, results suggested that the adsorption of the enzyme on this large and flexible polymeric bed was able to freeze some of the different oligomeric structures of the enzyme. Thus, we have found that the enzyme immobilized at certain pH values (pH 8.5) and high enzyme concentration, in which the main enzyme structure is the tetramer, was more stable than immobilized preparations produced in conditions under which oligomerization was not favorable (dimers at low enzyme concentration) or it was too high (e.g., hexamers-octamers at low pH value). The optimal enzyme preparation remained fully active after a 15-day incubation at 50 degreesC and pH 4.5 (conditions of standard industrial use) and presented an optimal temperature approximately 5 degreesC higher than that of soluble enzyme.