1.13.12.16: nitronate monooxygenase
This is an abbreviated version!
For detailed information about nitronate monooxygenase, go to the full flat file.
Word Map on EC 1.13.12.16
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1.13.12.16
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nitroalkanes
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flavin
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nitroethane
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neurospora
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crassa
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fmn
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hansenula
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mrakii
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flavosemiquinone
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1-nitropropane
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denitrification
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3-nitropropionic
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ansochromogenes
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fmn-dependent
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saturnus
- 1.13.12.16
- nitroalkanes
- flavin
- nitroethane
- neurospora
- crassa
- fmn
- hansenula
- mrakii
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flavosemiquinone
- 1-nitropropane
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denitrification
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3-nitropropionic
- ansochromogenes
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fmn-dependent
- saturnus
Reaction
Synonyms
2-nitropropane dioxygenase, EC 1.13.11.32, NAO, ncd2, nitroalkane oxidase, nitroalkane-oxidizing enzyme, nitronate monooxygenase, nitropropane dioxygenase, NMO, NMO-Nc, NMO-Ws, nmoA, Npd1, Npd2, Npd3, Npd4, Npd5, Npd6, oxidase, nitroalkane, oxygenase, 2-nitropropane di-, P3N monooxygenase, Pa-NMO, PA4202, protein PA4202, Rv1894c, Sa-NAO
ECTree
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Reaction
Reaction on EC 1.13.12.16 - nitronate monooxygenase
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superoxide as reactive intermediate
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ethylnitronate + O2 = acetaldehyde + nitrite + other products
ordered bi bi mechanism in which 2-nitropropane first combines with the enzyme and the enzyme 2-nitropropane complex reacts with oxygen to form a ternary complex
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ethylnitronate + O2 = acetaldehyde + nitrite + other products
catalytic and kinetic reaction mechanism, comparison to the nitroalkane oxigenase, EC 1.7.3.1, and other flavin-dependent enzymes, ionization of nitroethane and ethylnitronate in aqueous solution, overview. Enzymatic turnover begins with the rapid equilibrium association of ethylnitronate and the enzyme. In the oxidative pathway, the transfer of a single electron oxidizes the organic substrate and reduces the enzyme-bound flavin to an anionic semiquinone species, the electron transfer occurs while the substrate radical is still bound in the active site of the enzyme. After formation of the flavosemiquinone species in the active site of NMO, the subsequent oxidation of the one electron reduced flavin occurs when molecular oxygen reacts with the anionic flavosemiquinone to yield an enzyme-associated superoxide species, with second-order rate constants
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ethylnitronate + O2 = acetaldehyde + nitrite + other products
catalytic and kinetic reaction mechanism, comparison to the nitroalkane oxygenase, EC 1.7.3.1, and other flavin-dependent enzymes, ionization of nitroethane and ethylnitronate in aqueous solution, overview
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ethylnitronate + O2 = acetaldehyde + nitrite + other products
catalytic and kinetic reaction mechanism, comparison to the nitroalkane oxygenase, EC 1.7.3.1, and other flavin-dependent enzymes, ionization of nitroethane and ethylnitronate in aqueous solution, overview
ethylnitronate + O2 = acetaldehyde + nitrite + other products
catalyze the oxidation of propionate-3-nitronate or other nitronate analogues through a radical mechanism involving a catalytic flavosemiquinone without formation of a canonical C4a-(hydro)peroxyflavin
ethylnitronate + O2 = acetaldehyde + nitrite + other products
superoxide as reactive intermediate
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ethylnitronate + O2 = acetaldehyde + nitrite + other products
ordered bi bi mechanism in which 2-nitropropane first combines with the enzyme and the enzyme 2-nitropropane complex reacts with oxygen to form a ternary complex
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ethylnitronate + O2 = acetaldehyde + nitrite + other products
catalytic and kinetic reaction mechanism, comparison to the nitroalkane oxygenase, EC 1.7.3.1, and other flavin-dependent enzymes, ionization of nitroethane and ethylnitronate in aqueous solution, overview
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