EC Number |
General Information |
Reference |
---|
1.1.5.5 | evolution |
high similarity between genes encoding subunits I and II of PQQ-ADH |
-, 724087 |
1.1.5.5 | malfunction |
exaA2 and exaA3 mutants are less competitive than the wild type during colonization of rice roots |
-, 726014 |
1.1.5.5 | malfunction |
inactivation of PA1982 by insertion mutagenesis results in inability of the mutant to utilise ethanol and in reduced growth on geraniol. Growth on ethanol is restored by transferring an intact copy of the PA1982 gene into the mutant |
725298 |
1.1.5.5 | malfunction |
mutant strains defective in the adhS gene of Acetobacter pasteurianus lose ADH activity because they produce only the subunit II but fail to produce the subunit I as well as the subunit III |
-, 724044 |
1.1.5.5 | metabolism |
ethanol is oxidized to acetic acid by a sequential action of PQQ-ADH and membrane-bound aldehyde dehydrogenase, EC 1.1.1.2, reducing Q in the cytoplasmic membrane, overview. Model for the intramolecular electron transport of PQQ-ADH, overvoew |
-, 724044 |
1.1.5.5 | metabolism |
ethanol is oxidized to acetic acid by a sequential action of PQQ-ADH and membrane-bound aldehyde dehydrogenase, EC 1.1.1.2, reducing ubiquinnone in the cytoplasmic membrane, overview. Model for the intramolecular electron transport of PQQ-ADH, overview |
-, 724044 |
1.1.5.5 | metabolism |
ethanol is oxidized to acetic acid by a sequential action of PQQ-ADH and membrane-bound aldehyde dehydrogenase, EC 1.1.1.2, reducing ubiquinone in the cytoplasmic membrane, overview |
-, 724044 |
1.1.5.5 | metabolism |
ethanol is oxidized to acetic acid by a sequential action of PQQ-ADH and membrane-bound aldehyde dehydrogenase, EC 1.1.1.2, reducing ubiquinone in the cytoplasmic membrane, overview. Model for the intramolecular electron transport of PQQ-ADH, overview |
-, 724044 |
1.1.5.5 | metabolism |
ethanol is oxidized to acetic acid by a sequential action of PQQ-ADH and membrane-bound aldehyde dehydrogenase, EC 1.1.1.2, reducing ubiquinone in the cytoplasmic membrane, overview. Model for the intramolecular electron transport of PQQ-ADH, overvoew |
-, 724044 |
1.1.5.5 | more |
Thr104 might be involved in molecular coupling with subunit I in order to construct active ADH complex, whereas 22 amino acid residues at C-terminal may be not necessary for PQQ-ADH activity |
-, 725154 |