1.12.2.1: cytochrome-c3 hydrogenase
This is an abbreviated version!
For detailed information about cytochrome-c3 hydrogenase, go to the full flat file.
Word Map on EC 1.12.2.1
-
1.12.2.1
-
hydrogenases
-
desulfovibrio
-
nickel
-
hydride
-
eutropha
-
h-cluster
-
iron-sulfur
-
ralstonia
-
o2-tolerant
-
nife-hydrogenases
-
hildenborough
-
dihydrogen
-
hyperfine
-
electrochemistry
-
diiron
-
sulfate-reducing
-
fe-hydrogenase
-
miyazaki
-
heterolytic
-
desulfuricans
-
oxygen-tolerant
-
electrocatalytic
-
allochromatium
-
metallochaperone
-
overpotential
-
subcluster
-
pasteurianum
-
fructosovorans
-
organometallic
-
hydf
-
dinuclear
-
bimetallic
-
co-inhibited
-
nickel-iron
-
vinosum
-
h2-oxidizing
-
hydrogen-producing
-
maturase
-
environmental protection
-
fhl
-
tetraheme
-
industry
-
metallocenter
-
hydrogenlyase
-
hyscore
-
nickel-binding
-
synthesis
-
h2-dependent
-
electrocatalysts
- 1.12.2.1
- hydrogenases
- desulfovibrio
- nickel
-
hydride
- eutropha
-
h-cluster
-
iron-sulfur
- ralstonia
-
o2-tolerant
- nife-hydrogenases
- hildenborough
-
dihydrogen
-
hyperfine
-
electrochemistry
-
diiron
-
sulfate-reducing
- fe-hydrogenase
- miyazaki
-
heterolytic
- desulfuricans
-
oxygen-tolerant
-
electrocatalytic
-
allochromatium
-
metallochaperone
-
overpotential
-
subcluster
- pasteurianum
- fructosovorans
-
organometallic
- hydf
-
dinuclear
-
bimetallic
-
co-inhibited
-
nickel-iron
- vinosum
-
h2-oxidizing
-
hydrogen-producing
-
maturase
- environmental protection
- fhl
-
tetraheme
- industry
-
metallocenter
- hydrogenlyase
-
hyscore
-
nickel-binding
- synthesis
-
h2-dependent
-
electrocatalysts
Reaction
+ 2 ferricytochrome c3 = 2 H+ + 2 ferrocytochrome c3
Synonyms
cytochrome c3 hydrogenase, cytochrome c3 reductase, cytochrome hydrogenase, cytochrome-c3 hydrogenase, Fe-only hydrogenase, H2:ferricytochrome c3 oxidoreductase, H2ase, hyd B, HydAB, hydrogenase, hydrogenase, cytochrome, Hyn-1B, Hyn1 hydrogenase, HynAB-1, HysAB, [FeFe] hydrogenase, [Fe] hydrogenase, [Fe]-hydrogenase, [NiFeSe] Hase, [NiFeSe] hydrogenase, [NiFe] Hase, [NiFe] hydrogenase, [NiFe] hydrogenase 1, [NiFe]-hydrogenase
ECTree
Advanced search results
Application
Application on EC 1.12.2.1 - cytochrome-c3 hydrogenase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
environmental protection
industry
-
platinum (IV) recovery from an industrial effluent through a biosulphidogenic sulphate reducing bacteria consortium via a hydrogenase-cytochrome c3 enzyme system that removes electrons from hydrogen to the platinum metal that acts as a final electron acceptor
synthesis
-
enzyme might be useful in development of a mechanism to remove contaminating uranium from groundwaters
environmental protection
-
enzyme might be useful in development of a mechanism to remove contaminating uranium from groundwaters
environmental protection
-
enzyme might be useful in development of a mechanism to remove contaminating uranium from groundwaters
-
-
adsorption of cytochrome c3 at a pyrolytic graphite electrode is observed in the room-temperature ionic liquids 1-butyl-3-methylimidazolium tetrafluoroborate, 1-ethyl-3-methylimidazolium tetrafluoroborate and 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide. The electrochemical signal differs however from that obtained in aqueous buffer, and depended on the type of room-temperature ionic liquids. 1-Ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide, as a hydrophobic non-water-miscible room-temperature ionic liquids, stabilizes the native form of cytochrome c3 and allows an amount of electroactive protein 30fold higher than observed in aqueous buffer. Catalytic oxidation of H2 via [NiFe] hydrogenase mediated by cytochrome c33 fails however, possibly due to inhibition of the hydrogenase in presence of room-temperature ionic liquids
synthesis
-
adsorption of cytochrome c3 at a pyrolytic graphite electrode is observed in the room-temperature ionic liquids 1-butyl-3-methylimidazolium tetrafluoroborate, 1-ethyl-3-methylimidazolium tetrafluoroborate and 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide. The electrochemical signal differs however from that obtained in aqueous buffer, and depended on the type of room-temperature ionic liquids. 1-Ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide, as a hydrophobic non-water-miscible room-temperature ionic liquids, stabilizes the native form of cytochrome c3 and allows an amount of electroactive protein 30fold higher than observed in aqueous buffer. Catalytic oxidation of H2 via [NiFe] hydrogenase mediated by cytochrome c33 fails however, possibly due to inhibition of the hydrogenase in presence of room-temperature ionic liquids
-