Biocatalysis with Escherichia coli-overexpressing cyclopentanone monooxygenase immobilized in polyvinyl alcohol gel.

UNLABELLED: This is the first reported study on the immobilization of living recombinant Escherichia coli cells that overexpress cyclopentanone monooxygenase in polyvinyl alcohol gel particles LentiKats®. Immobilized cells overexpressing cyclopentanone monooxygenase have been used as a model of biocatalyst for enantioselective Baeyer-Villiger biooxidation of rac-bicyclo[3.2.0]hept-2-en-6-one into regioisomeric lactones. This process is useful for the syntheses of cytostatic sarkomycin, several prostaglandins and other biologically active compounds. The original technique for qualitative analysis of enzyme expression within free cells and cells entrapped in LentiKats® using SDS-PAGE was developed and used for verification of optimal conditions for the induction of cyclopentanone monooxygenase. Here, we successfully performed six repeated batch Baeyer-Villiger biooxidations utilizing entrapped cells using 40% (w/v) polyvinyl alcohol gel particles in flasks with baffles. The latter conditions have been found to be the most appropriate achieving optimal oxygen transfer within LentiKats®. Moreover, immobilized cells retained their catalytic efficiency over six reaction cycles, while the catalytic efficiency of free cells decreased after three reaction cycles. SIGNIFICANCE AND IMPACT OF THE STUDY: Immobilization in polyvinylalcohol gel particles is desirable technique with presumptive impact on industrial applications of recombinant whole-cell Baeyer-Villiger monooxygenases as biocatalysts for production of bioactive compounds and precursors of potentially new drugs. An original immobilization of cells E. coli with overproduced Baeyer-Villiger monooxygenase improved their stability in repetitive batch biooxidations as compared to free cells. Detected autoinduction of recombinant enzyme in pET22b+ plays significant role in application of immobilized cells as it may increase specific activity of cells in repetitive use under growing reaction conditions. Original technique for qualitative analysis of enzyme expression within immobilized cells was developed.

High efficiency ethanol fermentation by entrapment of Zymomonas mobilis into LentiKats.

AIMS: To examine the potential of Zymomonas mobilis entrapped into polyvinylalcohol (PVA) lens-shaped immobilizates in batch and continuous ethanol production. METHODS AND RESULTS: Cells, free or immobilized in PVA hydrogel-based lens-shaped immobilizates - LentiKats, were cultivated on glucose medium in a 1 l bioreactor. In comparison with free cell cultivation, volumetric productivity of immobilized batch culture was nine times higher (43.6 g l(-1) h(-1)). The continuously operated system did not improve the efficiency (volumetric productivity of the immobilized cells 30.7 g l(-1) h(-1)). CONCLUSIONS: We demonstrated Z. mobilis capability, entrapped into LentiKats, in the cost-efficient batch system of ethanol production. SIGNIFICANCE AND IMPACT OF THE STUDY: The results reported here emphasize the potential of bacteria in combination with suitable fermentation technology in industrial scale. The innovation compared with traditional systems is characterized by excellent long-term stability, high volumetric productivity and other technological advantages.