1.5.8.1: dimethylamine dehydrogenase
This is an abbreviated version!
For detailed information about dimethylamine dehydrogenase, go to the full flat file.
Word Map on EC 1.5.8.1
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1.5.8.1
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trimethylamine
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hyphomicrobium
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flavin
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dehydrogenases
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prosthetic
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ammonia
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mononucleotide
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demethylase
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formaldehyde
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histamine
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6-s-cysteinyl
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strands
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methylophilus
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n-oxide
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simplex
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methylotrophus
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nocardioides
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cation-pi
- 1.5.8.1
- trimethylamine
- hyphomicrobium
- flavin
- dehydrogenases
-
prosthetic
- ammonia
- mononucleotide
- demethylase
- formaldehyde
- histamine
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6-s-cysteinyl
- strands
- methylophilus
- n-oxide
- simplex
- methylotrophus
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nocardioides
-
cation-pi
Reaction
Synonyms
dehydrogenase, dimethylamine, dehydrogenase, dimethylamine (Hyphomicrobium strain X clone pUHA65/pUHB49 gene dmd precursor), dehydrogenase, dimethylamine (Hyphomicrobium strain X clone pUHA65/pUHB49 gene dmd), dimethylamine monooxygenase, DMADH, EC 1.5.99.10
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Natural Substrates Products
Natural Substrates Products on EC 1.5.8.1 - dimethylamine dehydrogenase
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REACTION DIAGRAM
dimethylamine + H2O + electron-transfer flavoprotein
methylamine + formaldehyde + reduced electron-transferring flavoprotein
dimethylamine + H2O + electron-transferring flavoprotein
methylamine + formaldehyde + reduced electron-transferring flavoprotein
methylamine + formaldehyde + reduced electron-transferring flavoprotein
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dimethylamine + H2O + electron-transfer flavoprotein
methylamine + formaldehyde + reduced electron-transferring flavoprotein
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methylamine + formaldehyde + reduced electron-transferring flavoprotein
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reverse reaction is catalyzed only under anaerobic growth conditions
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dimethylamine + H2O + electron-transferring flavoprotein
methylamine + formaldehyde + reduced electron-transferring flavoprotein
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reverse reaction is catalyzed only under anaerobic growth conditions
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when Hyphomicrobium X grows anaerobically on dimethylamine as sole carbon source with nitrate as terminal electron acceptor, the organism gets its energy from the oxidation of the amine substrate by dimethylamine dehydrogenase
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additional information
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when Hyphomicrobium X grows anaerobically on dimethylamine as sole carbon source with nitrate as terminal electron acceptor, the organism gets its energy from the oxidation of the amine substrate by dimethylamine dehydrogenase
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additional information
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anaerobic and aerobic metabolism of ethylamines, overview
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additional information
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anaerobic and aerobic metabolism of ethylamines, overview
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