EC Number |
Substrates |
Organism |
Products |
Reversibility |
---|
1.7.2.4 | more |
enzyme shows Cu+/Fe2+ oxidation kinetics that follow the Michaelis-Menten model, with 2fold to 10fold higher efficiencies for Cu+ and Fe2+ as compared with the tested aromatic compounds |
Pyrobaculum aerophilum |
? |
- |
? |
1.7.2.4 | more |
the purple form of enzyme, in which the copper centre is in the oxidized [2Cu2+:2Cu+] redox state, is redox active, although it is still catalytically non-competent, as its specific activity is lower than that of the activated fully reduced enzyme and comparable with that of the enzyme with the copper centre in either the [1Cu2+:3Cu+] redox state or in the redox inactive state |
Marinobacter nauticus |
? |
- |
? |
1.7.2.4 | more |
determination of detailed gas kinetics and transcription patterns from batch culture experiments with Paracoccus denitrificans, allowing in vivo estimation of electron flow to O2 and N2O under various O2 regimes |
Paracoccus denitrificans |
? |
- |
? |
1.7.2.4 | N2O + 2 Fe2+ + 2 H+ |
- |
Pyrobaculum aerophilum |
N2 + H2O + 2 Fe3+ |
- |
? |
1.7.2.4 | N2O + H2O + benzyl viologen cation radical |
- |
Pseudomonas aeruginosa |
N2 + reduced benzyl viologen |
- |
? |
1.7.2.4 | N2O + H2O + benzyl viologen cation radical |
- |
Pseudomonas aeruginosa P2 |
N2 + reduced benzyl viologen |
- |
? |
1.7.2.4 | N2O + reduced acceptor |
- |
Paracoccus denitrificans |
N2 + H2O + acceptor |
- |
? |
1.7.2.4 | N2O + reduced acceptor |
- |
Alcaligenes faecalis |
N2 + H2O + acceptor |
- |
? |
1.7.2.4 | N2O + reduced acceptor |
- |
Sinorhizobium meliloti |
N2 + H2O + acceptor |
- |
? |
1.7.2.4 | N2O + reduced acceptor |
- |
Bradyrhizobium japonicum |
N2 + H2O + acceptor |
- |
? |