Cyclodextrin glucanotransferase synthesis by semicontinuous cultivation of magnetic biocatalysts from cells of Bacillus circulans ATCC 21783

Abstract

Cells of the alkalotolerant producer of cyclodextrin glucanotransferase (CGTase) Bacillus circulans ATCC 21783 were used as a model for preparing of magnetic biocatalysts applied for CGTase synthesis in batch and semicontinuous processes. The cell immobilization was carried out with four types of magnetic nano- and microparticles: magnetite microparticles (1–5 μm), entrapped in agar gel beads with bacterial cells (AM-biocatalyst); silanized magnetite (20–40 nm) covalently bound on the cell surface (SM-biocatalyst); and alkaline and citrate ferrofluids (10–20 nm), attached on the cell wall by an ionic interaction (FF-alkaline and FF-citrate biocatalyst). The highest CGTase production was achieved after 96 h of semicontinuous process using SM-biocatalysts (particularly, these composed of 80 mg silanized magnetite and 140 mg bacterial cells) when the specific enzyme activity was 8.4-fold higher compared to that of free cells. Cells modified with magnetic alkaline and citrate ferrofluids exhibited 2.19- and 1.55-fold increase of the specific CGTase activities. Magnetic nanoparticles linked on the cell walls by ionic interactions were partially released during the cultivation, while the covalent bond between the activated magnetite and the cells was very stable. The data obtained demonstrate convincingly the effect of the magnetic technologies for an effective enzyme production.