4.1.1.2: oxalate decarboxylase
This is an abbreviated version!
For detailed information about oxalate decarboxylase, go to the full flat file.
Word Map on EC 4.1.1.2
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4.1.1.2
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hyperoxaluria
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velutipes
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oxalate-degrading
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flammulina
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mniii
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mn-dependent
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bicupins
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collybia
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medicine
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agriculture
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paper production
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industry
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biotechnology
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degradation
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synthesis
- 4.1.1.2
- hyperoxaluria
- velutipes
-
oxalate-degrading
-
flammulina
-
mniii
-
mn-dependent
-
bicupins
-
collybia
- medicine
- agriculture
- paper production
- industry
- biotechnology
- degradation
- synthesis
Reaction
Synonyms
AnODC, AtuOXDC, Decarboxylase, oxalate, FvOXDC, More, ODC, ODC B, ODC C, ODC E, ODC F, odc2, oxalate carboxy-lyase, oxalate-decarboxylase, oxazyme, OXD, OXDC, OxDc-CLEC, OxDcase, OxdD, pBy, TOXDC, YoaN, YvrK
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Natural Substrates Products
Natural Substrates Products on EC 4.1.1.2 - oxalate decarboxylase
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REACTION DIAGRAM
oxalate + H+
formate + CO2
Atheliachaete sanguinea
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inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?
oxalate + H+
formate + CO2
Atheliachaete sanguinea T51
-
inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?
oxalate + H+
formate + CO2
-
-
-
-
?
oxalate + H+
formate + CO2
involved in the elevation of cytoplasmic pH
-
?
oxalate + H+
formate + CO2
oxalate-degrading enzyme
-
?
oxalate + H+
formate + CO2
oxalate-degrading enzyme, may be involved in the elevation of cytoplasmic pH, because the reaction involves the net consumption of a proton
-
?
oxalate + H+
formate + CO2
-
oxalate-degrading enzyme, possibly involved in decarboxylative phosphorylation, YvrK could contribute to the raising of cytoplasmic pH when the organism encounters low values of pH in soil and rotting vegetation
-
?
oxalate + H+
formate + CO2
-
regulation of OxdD synthesis and assembly in the spore coat, transcription of oxdD gene is induced during sporulation as a monocistronic unit under the control of sigmaK and is negatively regulated by GerE
-
?
oxalate + H+
formate + CO2
-
oxalate-degrading enzyme, possibly involved in decarboxylative phosphorylation, YvrK could contribute to the raising of cytoplasmic pH when the organism encounters low values of pH in soil and rotting vegetation
-
?
oxalate + H+
formate + CO2
involved in the elevation of cytoplasmic pH
-
?
oxalate + H+
formate + CO2
oxalate-degrading enzyme
-
?
oxalate + H+
formate + CO2
oxalate-degrading enzyme, may be involved in the elevation of cytoplasmic pH, because the reaction involves the net consumption of a proton
-
?
oxalate + H+
formate + CO2
-
inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?
oxalate + H+
formate + CO2
-
inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?
oxalate + H+
formate + CO2
oxalate-catabolizing enzyme
-
?
oxalate + H+
formate + CO2
-
inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?
oxalate + H+
formate + CO2
-
inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?
oxalate + H+
formate + CO2
-
inducible enzyme, key role in regulating the level of oxalate concentrations inside the fungal cells and in the vicinity of the fungal hyphae
-
?