EC Number   |
Natural Substrates |
|---|
    1.12.7.2 | 2 H+ + reduced ferredoxin |
the exergonic reaction is coupled to energy conservation by means of electron-transport phosphorylation |
| 1.12.7.2 | 2 H+ + reduced polyferredoxin |
the exergonic reaction is coupled to energy conservation by means of electron-transport phosphorylation |
| 1.12.7.2 | H+ + reduced ferredoxin |
- |
| 1.12.7.2 | H+ + reduced ferredoxin |
Mbh function as a redox-driven ion pump coupling the reduction of protons with electrons derived from the oxidation of a low-potential ferredoxin to the generation of a H+ motive force |
| 1.12.7.2 | H+ + reduced ferredoxin |
reaction is proposed to be coupled to energy conservation |
| 1.12.7.2 | H+ + reduced ferredoxin |
the exergonic reaction is coupled to energy conservation by means of electron-transport phosphorylation |
| 1.12.7.2 | H+ + reduced ferredoxin |
hydrogen production is light-dependent, since the [FeFe] hydrogenase is coupled to the photosynthetic electron transport chain via ferredoxin |
| 1.12.7.2 | H+ + reduced ferredoxin |
Ech hydrogenase acts as primary proton pump in a ferredoxin-dependent electron transport system. Ech hydrogenase is necessary to generate an electrochemical ion gradient when ferredoxin is the only reducing equivalent and heterodisulfide is absent |
| 1.12.7.2 | H2 + oxidized ferredoxin |
- |
| 1.12.7.2 | H2 + oxidized ferredoxin |
ferredoxin links the enzyme to photosynthesis |
