Abstract

Magnetic Ni_0.7Co_0.3Fe₂O₄ nanoparticles that were prepared via the rapid combustion process were functionalized and modified to obtain magnetic Ni_0.7Co_0.3Fe₂O₄@SiO₂-CHO nanocomposites, on which penicillin G acylase (PGA) was covalently immobilized. Selections of immobilization concentration and time of fixation were explored. Catalytic performance of immobilized PGA was characterized. The free PGA had greatest activity at pH 8.0 and 45oC while immobilized PGA's a ctivities peaked a t pH 7.5 and 45°C. Immobilized PGA had better thermal stability than free PGA at the range of 30-50°C for different time intervals. The activity of free PGA would be 0 and that of immobilized PGA still retained some activities at 60°C after 2 h. <i>V</i>_max and <i>K</i>_m of immobilized PGA were 1.55 mol/min and 0.15 mol/l, respectively. Free PGA's <i>V</i>_max and <i>K</i>_m separately were 0.74 mol/min and 0.028 mol/l. Immobilized PGA displayed more than 50% activity after 10 successive cycles. We concluded that immobilized PGA with magnetic Ni_0.7Co_0.3Fe₂O₄@SiO₂-CHO nanocomposites could become a novel example for the immobilization of other amidohydrolases.