1.14.13.7: phenol 2-monooxygenase (NADPH)
This is an abbreviated version!
For detailed information about phenol 2-monooxygenase (NADPH), go to the full flat file.
Word Map on EC 1.14.13.7
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1.14.13.7
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catechols
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phenol-degrading
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hydroxylases
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2,3-dioxygenase
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trichosporon
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cutaneum
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meta-cleavage
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diiron
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cresol
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comamonas
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2-hydroxymuconic
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testosteroni
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haldane
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coke
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radioresistens
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carboxylate-bridged
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meta-pathway
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ortho-cleavage
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methylococcus
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cis,cis-muconate
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coking
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environmental protection
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industry
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synthesis
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degradation
- 1.14.13.7
- catechols
-
phenol-degrading
- hydroxylases
-
2,3-dioxygenase
- trichosporon
- cutaneum
-
meta-cleavage
-
diiron
- cresol
- comamonas
-
2-hydroxymuconic
- testosteroni
-
haldane
-
coke
- radioresistens
-
carboxylate-bridged
-
meta-pathway
-
ortho-cleavage
-
methylococcus
- cis,cis-muconate
-
coking
- environmental protection
- industry
- synthesis
- degradation
Reaction
Synonyms
DmpLNO, flavin containing monooxygenase, LmPH, Mph, MphN, multi-component phenol hydroxylase, multicomponent PH, multicomponent phenol hydroxylase, multicomponent phenol hydroxylase alpha subunit, NCgl2588, oxygenase, phenol 2-mono-, PHE, phenol hydroxylase, phenol o-hydroxylase, PHH, phhY, PHIND, PHO, PHR, single-component PH, SPH
ECTree
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Application
Application on EC 1.14.13.7 - phenol 2-monooxygenase (NADPH)
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degradation
environmental protection
industry
synthesis
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the multicomponent phenol hydroxylases can be used as biocatalysts for producing dyes, e.g. indigo, and hydroxyindoles such as 7-hydroxyindole from indole and its derivatives, overview, multicomponent phenol hydroxylases may serve as potential agents for organic syntheses as well as bioremediation
additional information
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phenol degradation, among kinetic parameters of growth, the maximum specific growth rate significantly affects the rate of contaminant degradation and is therefore an important parameter to characterise microbes in biological reatment systems
degradation
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phenol degradation, among kinetic parameters of growth, the maximum specific growth rate significantly affects the rate of contaminant degradation and is therefore an important parameter to characterise microbes in biological reatment systems
degradation
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phenol degradation, among kinetic parameters of growth, the maximum specific growth rate significantly affects the rate of contaminant degradation and is therefore an important parameter to characterise microbes in biological reatment systems
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the enzyme is useful in degradation of industrial pollutants
environmental protection
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application for enzyme-based remediation of phenolic wastewater or in phenolic biosensor, kinetic properties. Remediation of phenols at its anthropogenic source before it enters into the environmental ecosystem. Microbial degradation has gained attention for treatment of phenols owing to its ability of complete mineralization and cost effectiveness
environmental protection
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the enzyme is useful in degradation of industrial pollutants
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environmental protection
Auxenochlorella pyrenoidosa NCIM 2738
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application for enzyme-based remediation of phenolic wastewater or in phenolic biosensor, kinetic properties. Remediation of phenols at its anthropogenic source before it enters into the environmental ecosystem. Microbial degradation has gained attention for treatment of phenols owing to its ability of complete mineralization and cost effectiveness
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potential application of LmPH as a molecular marker for the phylogenetic analysis of phenol-degrading strains
additional information
potential application of LmPH as a molecular marker for the phylogenetic analysis of phenol-degrading strains
additional information
potential application of LmPH as a molecular marker for the phylogenetic analysis of phenol-degrading strains
additional information
potential application of LmPH as a molecular marker for the phylogenetic analysis of phenol-degrading strains
additional information
potential application of LmPH as a molecular marker for the phylogenetic analysis of phenol-degrading strains
additional information
potential application of LmPH as a molecular marker for the phylogenetic analysis of phenol-degrading strains