1.11.1.10: chloride peroxidase
This is an abbreviated version!
For detailed information about chloride peroxidase, go to the full flat file.
Word Map on EC 1.11.1.10
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1.11.1.10
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fumago
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caldariomyces
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horseradish
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chlorination
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peroxidases
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halogen
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halide
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haloperoxidase
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bromination
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lactoperoxidase
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inaequalis
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ferryl
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curvularia
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soret
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bromoperoxidase
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monochlorodimedone
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low-spin
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p450cam
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vanadium-dependent
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thioanisole
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peroxidase-catalyzed
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thiolate-ligated
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pyrrocinia
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oxoferryl
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n,n-dimethylaniline
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peroxygenases
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agrocybe
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vanadium-containing
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hypohalous
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aegerita
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degradation
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synthesis
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environmental protection
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biotechnology
- 1.11.1.10
- fumago
-
caldariomyces
- horseradish
-
chlorination
- peroxidases
-
halogen
- halide
- haloperoxidase
-
bromination
- lactoperoxidase
- inaequalis
-
ferryl
-
curvularia
-
soret
-
bromoperoxidase
- monochlorodimedone
-
low-spin
-
p450cam
-
vanadium-dependent
- thioanisole
-
peroxidase-catalyzed
-
thiolate-ligated
- pyrrocinia
-
oxoferryl
- n,n-dimethylaniline
-
peroxygenases
-
agrocybe
-
vanadium-containing
-
hypohalous
- aegerita
- degradation
- synthesis
- environmental protection
- biotechnology
Reaction
Synonyms
CCPO, Chloride peroxidase, chloroperoxidase, chloroproxidase, CPO, CPO-I, CPO2, haeme-thiolate peroxidase, heme-containing CPO, heme-thiolate chloroperoxidase, More, peroxidase, chloride, Vanadium chloride peroxidase, vCPO
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Application
Application on EC 1.11.1.10 - chloride peroxidase
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degradation
rapid and efficient enzymatic decolorization of anthraquinone (alizarin red) and triphenylmethane dyes (crystal violet). The chromophoric groups are destructed and the dye molecules are broken-down into small pieces. The enzyme shows strong toleration to the typical salt species NaCl, NaNO3, and Na2SO4
environmental protection
synthesis
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chloroperoxidase shows oxidative dehalogenation activity and is significantly more robust than other peroxidases and functions under harsher reaction conditions compared to other biocatalysts. Expanding the scope of reactivity achieved by the enzyme may be beneficial for industrial and biotechnological functions in the future. This considerable extension of already known activities could lead to the use of the enzyme as a biocatalyst in the field of bioremediation and a broader understanding of both how peroxidases and cytochrome P450s react with halogenated organic substrates
environmental protection
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this enzyme may by employed to treat contaminated soil or water prior to discharge
environmental protection
amino modified magnetic halloysite nanotube supporting chloroperoxidase immobilization is useful for enhanced stability, reusability, and efficient degradation of pesticide residue in wastewater. Degradation of mesotrione in wastewater by the immobilized CPO
environmental protection
CPO carries out a wide variety of oxidative reactions, changing the environmental impacts of organic matters
synthesis
chloroperoxidase (CPO) has long been recognized as a powerful and versatile catalyst, potential of co-immobilized enzymes chloroperoxidase and glucose oxidase as MGO-GOx-CPO in environmental applications
synthesis
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Musa paradisiaca plant juice chloroperoxidase is a potential biocatalyst for organic epoxidation reactions