EC Number |
Application |
Reference |
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1.3.3.5 | analysis |
application of polyammonium cations to enzyme-immobilized electrode: application as enzyme stabilizer for bilirubin oxidase |
695573 |
1.3.3.5 | analysis |
application of poly[oxyethylene(dimethylimino)propyl-(dimethylimino)ethylene] as enzyme stabilizer for bilirubin oxidase immobilized electrode |
695574 |
1.3.3.5 | analysis |
BOD has attracted considerable attention as an enzymatic catalyst for the cathode of biofuel cells that work under neutral conditions |
-, 710766 |
1.3.3.5 | analysis |
enzyme activity in serum bilirubin assays can be monitored by capillary electrophoresis |
391034 |
1.3.3.5 | analysis |
immobilized onto aminopropyl and arylamine glass beads to form an enzyme bioreactor |
391029 |
1.3.3.5 | analysis |
sandwich-type enzyme-amplified amperometric detection of DNA with ambient O2 as the substrate at neutral pH in the presence of chloride |
654189 |
1.3.3.5 | analysis |
the ability to perform the oxygen reduction reaction under physiological conditions is the most interesting feature of the enzyme bilirubin oxidase in terms of the design of biocathodes for biofuel cell applications. The enzyme is commonly immobilized on a solid carrier to achieve the highest biocatalytic activity, stability, selectivity, and reusability. Optimization of the application of immobilized enzyme for direct electrocatalytic reduction of O2 |
744715 |
1.3.3.5 | biofuel production |
the enzyme is used in a biofuel cell comprising enzymeless anode consisting of 0.2 mM braided gold wire modified with colloidal platinum and bilirubin oxidase-modified gold-coated Buckypaper biocathode |
765810 |
1.3.3.5 | biotechnology |
the enzyme functions effectively as the biocathode of a H2/O2 biofuel cell. It is immmobilized as a multiple layer in a cationic polymer (poly-L-lysine) matrix on an electrode surface. The BOD-modified electrode catalyzes four-electron reduction of O2 to water without any mediator, to produce a diffusion-controlled voltammogram for the O2 reduction in a quiescent solution. Construction of such a multiple enzyme layer is useful for increasing the current density even in direct electron transfer-type bioelectrocatalysis |
656369 |
1.3.3.5 | biotechnology |
the wired" enzyme is superior to pure platinum as a electrocatalyst of the four-electron electroreduction of O2 to water. The "wired" bilirubin oxidase-coated carbon cathode operates for more than 1 week at 37°C in a glucose-containing physiological buffer solution. Key application would be in a glucose-O2 biofuel cell. The cathode is short-lived in serum, losing its electrocatalytic activity in a few hours. The damaging serum component is 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 |