1.7.99.1: hydroxylamine reductase
This is an abbreviated version!
For detailed information about hydroxylamine reductase, go to the full flat file.
Word Map on EC 1.7.99.1
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1.7.99.1
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nitrite
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desulfovibrio
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hildenborough
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desulfuricans
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denitrification
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sulfate-reducing
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ammonification
- 1.7.99.1
- nitrite
- desulfovibrio
- hildenborough
- desulfuricans
-
denitrification
-
sulfate-reducing
-
ammonification
Reaction
Synonyms
CcuHao, CfHao, CmHao, epsilonHao, epsilonproteobacterial hydroxylamine oxidoreductase, fuscoredoxin, haoA, HAOr, HCP, hybrid cluster protein, Kustc0458, More, NpHao, prismane protein, reductase, hydroxylamine (acceptor)
ECTree
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Engineering
Engineering on EC 1.7.99.1 - hydroxylamine reductase
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W434Y
additional information
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site-directed mutagenesis, the mutant shows unaltered hydroxylamine oxidation activity, but decreased hydroxylamine reduction and increased nitrite reduction compared to the wild-type enzyme
W434Y
site-directed mutagenesis, the mutant shows unaltered hydroxylamine oxidation, but slightly reduced hydroxylamine reduction and significantly reduced nitrite reduction compared to the wild-type enzyme
W434Y
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site-directed mutagenesis, the mutant shows unaltered hydroxylamine oxidation activity, but highly increased hydroxylamine reduction and highly reduced nitrite reduction compared to the wild-type enzyme
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introduction of a tyrosine residue at a position known to cause covalent trimerization of Hao proteins does neither stimulate hydroxylamine oxidation nor generate the Hao-typical absorbance maximum at 460 nm
additional information
introduction of a tyrosine residue at a position known to cause covalent trimerization of Hao proteins does neither stimulate hydroxylamine oxidation nor generate the Hao-typical absorbance maximum at 460 nm
additional information
-
introduction of a tyrosine residue at a position known to cause covalent trimerization of Hao proteins does neither stimulate hydroxylamine oxidation nor generate the Hao-typical absorbance maximum at 460 nm