Cholesterol esterase (Cease) from bovine pancreas and cholesterol oxidasc (COD) from Bravibacterium recombinant type have been innobilized individually and co-immobilized onto arylamine glass (pore diameter 55nm) thro...Cholesterol esterase (Cease) from bovine pancreas and cholesterol oxidasc (COD) from Bravibacterium recombinant type have been innobilized individually and co-immobilized onto arylamine glass (pore diameter 55nm) through the process of diazotization. Cease and COD retained 92.65% and 85.54% of the initial activity with conjugation yields of 7.2 mg/g and 8.3mg/g support respectively when imnobilized individually on arylamine glass beads, but retained 89.58% of the initial activity with a conjugation yield of 2.9 mg/g support when co-immobilized on the same support. The effects of pH, temperature, time of incubation, substrate concentration, serum inorganic salts & metabolites, thermal stability, storage stability in cold and reusability on the immobilized enzymes were studied and compared with those of free enzymes. The analytic use of both individually immobilized and co-immobilized enzymes in discrete analysis of total and free cholesterol in serum is demonstrated.展开更多
文摘Cholesterol esterase (Cease) from bovine pancreas and cholesterol oxidasc (COD) from Bravibacterium recombinant type have been innobilized individually and co-immobilized onto arylamine glass (pore diameter 55nm) through the process of diazotization. Cease and COD retained 92.65% and 85.54% of the initial activity with conjugation yields of 7.2 mg/g and 8.3mg/g support respectively when imnobilized individually on arylamine glass beads, but retained 89.58% of the initial activity with a conjugation yield of 2.9 mg/g support when co-immobilized on the same support. The effects of pH, temperature, time of incubation, substrate concentration, serum inorganic salts & metabolites, thermal stability, storage stability in cold and reusability on the immobilized enzymes were studied and compared with those of free enzymes. The analytic use of both individually immobilized and co-immobilized enzymes in discrete analysis of total and free cholesterol in serum is demonstrated.