EC Number   |
Natural Substrates |
|---|
    1.2.7.4 | CO + ferredoxin |
ferredoxin is the direct electron acceptor, the carbon-monoxide dehydrogenase complex reduces a ferredoxin which, together with membranes and associated hydrogenase, reconstitutes a CO-oxidizing:H2-evolving system |
| 1.2.7.4 | CO + H2O |
- |
| 1.2.7.4 | CO + H2O + acceptor |
- |
| 1.2.7.4 | CO + H2O + electron acceptor |
- |
| 1.2.7.4 | CO + H2O + electron acceptor |
the carbon monoxide dehydrogenase-corrinoid enzyme complex catalyzes the methylation of tetrahydrosarcinapterin in a reaction involving net cleavage of acetyl-CoA |
| 1.2.7.4 | CO + H2O + electron acceptor |
the enzyme is involved in the Wood pathway of acetyl-CoA synthesis |
| 1.2.7.4 | CO + H2O + electron acceptor |
the enzyme is required for autotrophic CO2 fixation in methanogens, the enzyme is also involved in methanogenesis from acetate, not required for methanogenesis |
| 1.2.7.4 | CO + H2O + electron acceptor |
delivery of a low-potential electron to the CO-bound NiFe complex is the physiological function of the CO oxidation reaction catalyzed by the enzyme |
| 1.2.7.4 | CO + H2O + electron acceptor |
extensive role of the enzyme in the acetyl-CoA pathway, it is proposed that the enzyme serves as the CO, CH3, SCoA acceptor and catalyzes the final steps of the synthesis of acetyl-CoA |
| 1.2.7.4 | CO + H2O + electron acceptor |
key enzyme in C1-pathway of acetyl-CoA degradation |
