1.14.13.25: methane monooxygenase (soluble)
This is an abbreviated version!
For detailed information about methane monooxygenase (soluble), go to the full flat file.
Word Map on EC 1.14.13.25
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1.14.13.25
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methanotrophs
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methanol
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methylosinus
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capsulatus
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methylococcus
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trichosporium
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methane-oxidizing
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methylocystis
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ch4
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methylomonas
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dioxygen
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dinuclear
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methylobacter
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trichloroethylene
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methylomicrobium
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alkane
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diironii
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ammonia-oxidizing
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landfill
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upland
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antiferromagnetically
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wetland
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high-valent
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non-motile
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copper-containing
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carboxylate-bridged
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peat
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copper-dependent
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dicopper
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ch3oh
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nitrosomonas
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cometabolic
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diferrous
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methanobactins
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energy production
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mixed-valent
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gammaproteobacterial
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sphagnum
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t-rflp
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seep
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propene
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synthesis
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biotechnology
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degradation
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exafs
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nitrify
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peroxo
- 1.14.13.25
- methanotrophs
- methanol
- methylosinus
- capsulatus
- methylococcus
- trichosporium
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methane-oxidizing
- methylocystis
- ch4
- methylomonas
- dioxygen
-
dinuclear
- methylobacter
- trichloroethylene
- methylomicrobium
- alkane
-
diironii
-
ammonia-oxidizing
-
landfill
-
upland
-
antiferromagnetically
-
wetland
-
high-valent
-
non-motile
-
copper-containing
-
carboxylate-bridged
-
peat
-
copper-dependent
-
dicopper
- ch3oh
- nitrosomonas
-
cometabolic
-
diferrous
-
methanobactins
- energy production
-
mixed-valent
-
gammaproteobacterial
- sphagnum
-
t-rflp
-
seep
- propene
- synthesis
- biotechnology
- degradation
-
exafs
-
nitrify
-
peroxo
Reaction
Synonyms
chcA, cytoplasmic methane monooxygenase, methane hydroxylase, methane mono-oxygenase, methane monooxygenase, methane monooxygenase hydroxylase, MmMmoC, MMO, MMO Bath, MMOB, MmoC, MMOH, MMOR, oxygenase, methane mono-, particulate methane monooxygenase, pMMO, sMMO, soluble methane monooxygenase, soluble methane monooxygenase hydroxylase
ECTree
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KM Value
KM Value on EC 1.14.13.25 - methane monooxygenase (soluble)
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0.015
cycloheptanecarboxylate
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pH 7.4, temperature not specified in the publication
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0.084
cyclohexanecarboxylate
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pH 7.4, temperature not specified in the publication
0.33
cyclopentanecarboxylate
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pH 7.4, temperature not specified in the publication
0.27
Heptanoate
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pH 7.4, temperature not specified in the publication
0.51
hexanoate
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pH 7.4, temperature not specified in the publication
additional information
additional information
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steady-state kinetics
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additional information
additional information
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analysis of kinetics of single turnover reactions of the two intermediates with ethyl vinyl ether and diethyl ether, single- and double-mixing stopped-flow optical spectroscopy, overview, stopped-flow kinetics, analytical model of transient kinetics
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additional information
additional information
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effects of the C-terminal region of the B component MMOB and the active site diiron cluster of sMMO on the steady-state turnover, stopped-flow transient kinetics of the reaction cycle of wild-type and mutant enzymes, overview, deuterium kinetic isotope effect for the reaction of Q with methane, overview
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additional information
additional information
methylotrophic bacterium
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energetic parameters
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additional information
additional information
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kinetics, deuterium kinetic isotope effects, overview
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additional information
additional information
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soluble enzyme, stopped-flow transient kinetics, double-mixing stopped-flow optical spectroscopic measurements, difluoromethane exhibits a smaller second-order rate constant for reaction with intermediate Q compared to methane
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additional information
additional information
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thermodynamics, stopped-flow kinetics, time-course profiles for MMOH reduction by MMOR ferredoxin and by MMOR3e-
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additional information
additional information
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kinetics for class III substrates of Hperoxo, and kinetics and thermodynamic parameters for class III substrates of Q at 4°C and 20°C, overview
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additional information
additional information
A0A2D2D5X0; A0A2D2D0T8; Q53563; A0A2D2D0X7
impact of the incorporation of 5-fluorotryptophan and BTFA on sMMO steady state and single-turnover kinetics
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