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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Inhibitors
Inhibitors on EC 1.11.1.10 - chloride peroxidase
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diethyl dicarbonate
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the covalent modification of His105 inhibits the epoxidation and peroxide dismutations catalyzed by CPO
dimethyl dicarbonate
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the covalent modification of His105 inhibits the epoxidation and peroxide dismutations catalyzed by CPO
hydrogen peroxide
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the main process leading to peroxide-mediated enzyme inactivation is heme destruction (all tryptophan residues are partially oxidized in the inactive protein). 80000 molar equivalents of hydrogen peroxide are sufficient to reduce the activity of CPO to less than 5%
Sodium cyanoborohydride
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activity decreases in 38.2 and 92.6% for sodium cyanoborohydride molar excess of 1:1000 and 1:10000
additional information
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not inhibited by sodium cyanoborohydride in molar excess of 1:10 and 1:100
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azide
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active site ligand and inhibitor. At pH 4.0, supra-micromolar concentrations of azide inhibit the enzyme activity