EC Number   |
Natural Substrates |
|---|
    1.7.2.5 | 2 nitric oxide + 2 ferrocytochrome c + 2 H+ |
- |
| 1.7.2.5 | 2 nitric oxide + reduced acceptor |
- |
| 1.7.2.5 | 2 nitric oxide + reduced acceptor |
quinol-oxidising enzyme |
| 1.7.2.5 | 2 nitric oxide + reduced acceptor |
cytochrome c as mediator |
| 1.7.2.5 | 2 nitric oxide + reduced acceptor |
key step in the pathway of denitrification that uses N-oxyanions and N-oxides as respiratory electron acceptors |
| 1.7.2.5 | 2 nitric oxide + reduced acceptor |
To degrade NO, FlRd has to be reduced by NADH via the FAD-binding protein flavorubredoxin reductase. NADH, but not NADPH, quickly reduces the FlRd-reductase. The reductase in turn quickly reduces the rubredoxin (Rd) center of FlRd |
| 1.7.2.5 | more |
both toxin Dtx and nitric oxide reductase are the two key players required for survival and pathogenesis of Corynebacterium diphtheriae, their expressions being controlled by two independent regulators DtxR and DIP1512 respectively. The controlling system appears to be decoupled because of differential affinities of the two regulators for NO |
| 1.7.2.5 | more |
Pseudomonas aeruginosa NO reductase may contribute to the intracellular survival by acting as a counter component against the hostยs defense systems |
| 1.7.2.5 | more |
the dissimilative nitrate respiration regulator DNR is involved in transcription regulation of the enzyme, apo-DNR binds heme in vitro and the heme-bound form reacts with carbon monoxide and NO, thus supporting the hypothesis that NO sensing involves gas binding to the ferrous heme, mechanism and structure, overview |
| 1.7.2.5 | N2O + acceptor + H2O |
- |
