Cascade reactions catalyzed by two or more enzymes have been widely used in industrial production and exhibited many advantages over the single-enzyme catalytic system. In this study, two components of hydroxylase monooxygenase (HpaBC) were first co-immobilized by Ni2+-nitrilotriacetic acid (Ni-NTA) functionalized magnetic silica nanoparticles (Ni-NTA/H2N-SiO2@Fe3O4) for enhancing the stability and activity of biocatalysts with multi-components. These two components, HpaB and HpaC, were modified with histidine-tag and employed to construct a bi-enzyme catalytic system. After co-immobilization, the activity of the bi-enzyme system was 2.6 times of free enzymes. Meanwhile, the co-immobilized system was more stable against high temperature and alkaline condition, and maintained 76.6% of the initial activity for storage 12 days. Moreover, the co-immobilized HpaBC remained more than 60% catalytic activity after 7 cycles. These results showed that co-immobilized multi-component enzymes based on functionalized magnetic nanoparticles without purification would play a great potential role in the field of industrial biocatalysis.
Keywords: Co-immobilization; Functionalized magnetic nanoparticles; Two-component hydroxylase monooxygenase.
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