1.20.2.1: arsenate reductase (cytochrome c)
This is an abbreviated version!
For detailed information about arsenate reductase (cytochrome c), go to the full flat file.
Word Map on EC 1.20.2.1
-
1.20.2.1
-
asiii
-
arsenic
-
asiii-oxidizing
-
arsenite-oxidizing
-
heterotrophic
-
paddy
-
tumefaciens
-
agrobacterium
-
as-contaminated
-
flooded
-
denitrification
-
metalloid
-
molybdopterin
-
bioremediation
-
biogeochemical
-
nitrate-reducing
-
arsenic-contaminated
-
azoarcus
-
arsenic-resistant
-
as-resistance
-
porewater
-
denitrifiers
-
paracoccus
-
antimony
-
alphaproteobacteria
-
chemoautotrophic
-
antimonite
-
chemolithotrophs
- 1.20.2.1
-
asiii
- arsenic
-
asiii-oxidizing
-
arsenite-oxidizing
-
heterotrophic
-
paddy
- tumefaciens
-
agrobacterium
-
as-contaminated
-
flooded
-
denitrification
-
metalloid
- molybdopterin
-
bioremediation
-
biogeochemical
-
nitrate-reducing
-
arsenic-contaminated
- azoarcus
-
arsenic-resistant
-
as-resistance
-
porewater
-
denitrifiers
- paracoccus
- antimony
- alphaproteobacteria
-
chemoautotrophic
- antimonite
-
chemolithotrophs
Reaction
+ + 2 oxidized cytochrome c = + 2 reduced cytochrome c + 2 H+
Synonyms
aoxA, aoxB, AroA, aroB, As(III) oxidase
ECTree
Advanced search results
Organism
Organism on EC 1.20.2.1 - arsenate reductase (cytochrome c)
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
Brucella tritici SCII24
small subunit aoxA; able to grow on As(III) as sole energy source by oxidizing this metalloid to As(V)
UniProt
small subunit aoxB; able to grow on As(III) as sole energy source by oxidizing this metalloid to As(V)
UniProt
small subunit aoxA; able to grow on As(III) as sole energy source by oxidizing this metalloid to As(V)
UniProt
small subunit aoxB; able to grow on As(III) as sole energy source by oxidizing this metalloid to As(V)
UniProt