EC Number   |
General Stability |
Reference |
|---|
   1.3.3.5 | after an incubation of 8 days at physiological conditions, the enzyme loses 15% of its activity |
724076 |
| 1.3.3.5 | after the tenth cycle (2 months of storage), the enzyme retains more than 50% of its initial activity, while for homogeneous solution, the half live of the enzyme is 3 weeks |
764594 |
| 1.3.3.5 | bilirubin oxidase-coated carbon cathode operates for more than 1 week at 37°C in a glucose-containing physiological buffer solution. The cathode is short-lived in serum, losing its electrocatalytic activity in a few hours, caused by a product of the reaction of urate and dissolved oxygen. Exclusion of urate, by application of Nafion(TM) film in the cathode, improves the stability in serum |
654911 |
| 1.3.3.5 | BOD can undergo non-catalytic direct electron transfer between enzyme and carbon electrode and retains its catalytic activity, 1%-2% of the immobilized BOD (as a first monolayer on the electrode surface) participates in direct electrical communication with a carbon electrode |
685430 |
| 1.3.3.5 | immobilized enzyme, increased heat stability |
391022 |
| 1.3.3.5 | multi-walled carbon nanotube modification of glassy carbon electrodes strongly enhances the oxygen reduction of bilirubin oxidase compared to unmodified electrodes, the quasi-reversible redox reaction might be attributed to the trinuclear T2/T3 cluster of BOD, a BOD-multi-walled carbon nanotube-modified electrode retains 70% of the initial activity for oxygen reduction after 4 days |
686377 |
| 1.3.3.5 | the recombinant enzyme shows high tolerance towards urea |
724075 |
