1.7.2.4: nitrous-oxide reductase
This is an abbreviated version!
For detailed information about nitrous-oxide reductase, go to the full flat file.
Word Map on EC 1.7.2.4
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1.7.2.4
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denitrification
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denitrify
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nitrite
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greenhouse
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denitrificans
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paracoccus
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stutzeri
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dinitrogen
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wastewater
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binuclear
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tetranuclear
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cycloclastes
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mixed-valence
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multicopper
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ammonia-oxidizing
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n-cycle
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nautica
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wolinella
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arable
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nitrospirae
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stratospheric
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agriculture
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t-rflp
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degradation
- 1.7.2.4
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denitrification
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denitrify
- nitrite
-
greenhouse
- denitrificans
- paracoccus
- stutzeri
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dinitrogen
-
wastewater
-
binuclear
-
tetranuclear
- cycloclastes
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mixed-valence
-
multicopper
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ammonia-oxidizing
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n-cycle
- nautica
-
wolinella
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arable
- nitrospirae
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stratospheric
- agriculture
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t-rflp
- degradation
Reaction
+ + = + 2 ferrocytochrome c + 2 H+
Synonyms
cNosZ, EC 1.7.99.6, HdN2OR, McoP, MhN2OR, multicopper oxidase, N(2)OR, N2O reductase, N2OR, nitrous oxide reductase, NosZ, PpN2OR, PsN2OR, Sden_2219, SdN2OR, Z-type N2OR
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General Information
General Information on EC 1.7.2.4 - nitrous-oxide reductase
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evolution
malfunction
metabolism
physiological function
additional information
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spatial distribution of Labrenzia-like denitrifying bacteria in the Arabian Sea, and depth distribution of Labrenzia-like denitrifying bacteria transcribing nosZ outside the Arabian Sea oxygen minimum zone (OMZ)
evolution
spatial distribution of Labrenzia-like denitrifying bacteria in the Arabian Sea, and depth distribution of Labrenzia-like denitrifying bacteria transcribing nosZ outside the Arabian Sea oxygen minimum zone (OMZ)
evolution
spatial distribution of Labrenzia-like denitrifying bacteria in the Arabian Sea, and depth distribution of Labrenzia-like denitrifying bacteria transcribing nosZ outside the Arabian Sea oxygen minimum zone (OMZ)
evolution
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spatial distribution of Labrenzia-like denitrifying bacteria in the Arabian Sea, and depth distribution of Labrenzia-like denitrifying bacteria transcribing nosZ outside the Arabian Sea oxygen minimum zone (OMZ)
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involved in catalysis. In the absence of Ca2+, substantial parts of the enzyme surrounding the binding sites for the copper ions show structural disorder. Reconstitution of the binuclear CuA site was possible in vitro but required the presence of Ca2+ ions for a stable insertion of the center
malfunction
the level of nosRZD transcripts is severely impaired in the nasT mutant. In the nasT background, deletions of either hairpin leads to increased level of nosRZD transcripts. Under denitrifying conditions, level of nosR, nosZ and nosD transcripts in the nasT mutant severely decrease compared with the nasS mutant and the wild-type, as for nosZ. Phenotypic effects of deletions in the nosR leader region, overview
malfunction
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involved in catalysis. In the absence of Ca2+, substantial parts of the enzyme surrounding the binding sites for the copper ions show structural disorder. Reconstitution of the binuclear CuA site was possible in vitro but required the presence of Ca2+ ions for a stable insertion of the center
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the enzyme is on of the key enzymes involved in denitrification
metabolism
the enzyme catalyses the last step of denitrification
metabolism
Stutzerimonas stutzeri
the enzyme catalyses the last step of denitrification
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enzyme NosZ, which catalyzes N2O reduction to N2, is the key enzyme for mitigating N2O emissions
physiological function
enzyme NosZ, which catalyzes N2O reduction to N2, is the key enzyme for mitigating N2O emissions
physiological function
enzyme NosZ, which catalyzes N2O reduction to N2, is the key enzyme for mitigating N2O emissions
physiological function
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transcriptional and metabolic regulation of denitrification in Paracoccus denitrificans allows low but significant activity of nitrous oxide reductase under oxic conditions
physiological function
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Gemmatimonas aurantiaca strain T-27 requires N2O reductase expressed in the presence of O2 to utilize N2O as a surrogate electron acceptor in the anoxia that follows
physiological function
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enzyme NosZ, which catalyzes N2O reduction to N2, is the key enzyme for mitigating N2O emissions
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physiological function
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Gemmatimonas aurantiaca strain T-27 requires N2O reductase expressed in the presence of O2 to utilize N2O as a surrogate electron acceptor in the anoxia that follows
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in Bradyrhizobium diazoefficiens, maximal expression of the nitrous oxide reductase gene nosZ requires oxygen limitation and the presence of a nitrogen oxide. In contrast to nosRZD coding region, nosR-leader transcript level was not affected by nasS or nasT mutations under aerobic or denitrifying conditions respectively. Mapping of two transcription start sites of nosR and identification of two potential hairpins, H1 and H2, within the 5'-leader of nosR transcripts, the two-hairpin RNA structure acts for transcription termination upstream of nosR and the binding of NasT to H1 facilitates read-through transcription to induce nos expression
additional information
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in Bradyrhizobium diazoefficiens, maximal expression of the nitrous oxide reductase gene nosZ requires oxygen limitation and the presence of a nitrogen oxide. In contrast to nosRZD coding region, nosR-leader transcript level was not affected by nasS or nasT mutations under aerobic or denitrifying conditions respectively. Mapping of two transcription start sites of nosR and identification of two potential hairpins, H1 and H2, within the 5'-leader of nosR transcripts, the two-hairpin RNA structure acts for transcription termination upstream of nosR and the binding of NasT to H1 facilitates read-through transcription to induce nos expression
additional information
SdN2OR is a Z-type N2OR, structure modelling
additional information
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SdN2OR is a Z-type N2OR, structure modelling
additional information
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SdN2OR is a Z-type N2OR, structure modelling
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