1.20.99.1: arsenate reductase (donor)
This is an abbreviated version!
For detailed information about arsenate reductase (donor), go to the full flat file.
Word Map on EC 1.20.99.1
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1.20.99.1
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arsenite
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asiii
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dissimilatory
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shewanella
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geobacter
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groundwater
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selenate
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paddy
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biogeochemical
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arsenic-rich
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haloalkaliphile
- 1.20.99.1
- arsenite
-
asiii
-
dissimilatory
- shewanella
- geobacter
-
groundwater
- selenate
-
paddy
-
biogeochemical
-
arsenic-rich
-
haloalkaliphile
Reaction
Synonyms
Acr2, ACR2.1, ACR2.2, AR, Arr, ArrA, ArsC, arsenate reductase, arsenite oxidase, As(V) reductase, ATQ1, Cdc25B, Cdc25C, EC 1.97.1.6, gene arsC proteins, HAC1, More, proteins (specific proteins and subclasses), genearsC, reductase, arsenate, respiratory arsenate reductase
ECTree
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Metals Ions
Metals Ions on EC 1.20.99.1 - arsenate reductase (donor)
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Iron
Molybdenum
Zinc
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it is possible that one zinc atom represents an additional cofactor
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dimeric enzyme contains a reduced molybdenum bis(molybdopterin) center in the larger subunit and a [3Fe4S] Rieske cluster in the smaller subunit
Iron
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enzyme is a MoFe protein, Mo atom bound to 2 pterin cofactors and a [3Fe4S] cluster, binding site on the large subunit, the small subunit contains a binding site for a Rieske-type [2Fe2S] cluster
Iron
Hydrogenophaga sp. NT-26
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involved in catalysis, enzyme contains a reduced molybdenum bis(molybdopterin) center in the larger subunit and a [3Fe4S] Rieske cluster in the smaller subunit
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dimeric enzyme contains a reduced molybdenum bis(molybdopterin) center in the larger subunit and a [3Fe4S] Rieske cluster in the smaller subunit, the molybdenoenzyme does not exhibit a Mo(V) EPR signal during oxidative-reductive titation, reversible reduction of the Mo(VI) center to Mo(IV), reduction potential and pH dependence determination
Molybdenum
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enzyme is a MoFe protein, Mo atom bound to 2 pterin cofactors and a [3Fe4S] cluster, binding site on the large subunit, the Mo atom is not covalently bound to the polypeptide
Molybdenum
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molybdenum enzyme containing inequivalent P- and Q-pterins coordinated to the metal ion, structure analysis
Molybdenum
Hydrogenophaga sp. NT-26
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involved in catalysis, enzyme contains a reduced molybdenum bis(molybdopterin) center in the larger subunit and a [3Fe4S] Rieske cluster in the smaller subunit