EC Number   |
Application |
Reference |
|---|
   1.1.5.5 | analysis |
adhA expression is related to the ability to oxidize and grow on ethanol. Differential expression of pyrroloquinoline quinonealcohol dehydrogenase could be a marker to analyse both growth and oxidation ability in some acetic acid bacteria, especially those of the genus Acetobacter |
692812 |
| 1.1.5.5 | analysis |
construction and evaluation of an ethanol sensor based on the enzyme using direct electron-transfer processes between the polypyrrole entrapped quinohemoprotein alcohol dehydrogenase and a platinum electrode, overview |
-, 684415 |
| 1.1.5.5 | analysis |
the enzyme can be used in biosensors, method development, overview |
-, 685695 |
| 1.1.5.5 | biofuel production |
comparison of a direct electron transfer bioanode containing both PQQ-ADH (pyrroloquinoline quinone-dependent alcohol dehydrogenase) and PQQ-AldDH (PQQ-dependent aldehyde dehydrogenase) immobilized onto different modified electrode surfaces employing either a tetrabutylammonium-modified Nafion membrane polymer or polyamidoamine (PAMAM) dendrimers. The prepared bioelectrodes are able to undergo direct electron transfer onto glassy carbon surface in the presence as well as the absence of multi-walled carbon nanotubes, also, in the latter case a relevant shift in the oxidation peak of about 180 mV vs. saturated calomel electrode is observed |
724837 |
| 1.1.5.5 | more |
applications of PQQ-ADH in bioelectrocatalyst for biosensors and biofuel cells, amperometric determination of ethanol is a potential application for the PQQ-ADH electrode, overview |
-, 724044 |
| 1.1.5.5 | more |
applications of PQQ-ADH in bioelectrocatalyst for biosensors and biofuel cells, amperometric determination of ethanol is a potential application for the PQQ-ADH electrode, overview. Development of a DET-based biofuel system by combination of electrodes coated with FAD-dependent fructose dehydrogenase of Gluconobacter sp. as an anode and laccase of mushroom as a cathode |
-, 724044 |
