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
-
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
- 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
ECTree
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Metals Ions
Metals Ions on EC 1.11.1.10 - chloride peroxidase
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Al3+
maximum activity at a ratio of 2 mol M3+/mol of enzyme. Inhibitory above a ratio of 4 mol M3+/mol of enzyme
Cd2+
maximum activity at a ratio of 2 mol M2+/mol of enzyme. Inhibitory above a ratio of 4 mol M2+/mol of enzyme
Cr3+
maximum activity at a ratio of 2 mol M3+/mol of enzyme. Inhibitory above a ratio of 4 mol M3+/mol of enzyme
Cu2+
maximum activity at a ratio of 2 mol M2+/mol of enzyme. Inhibitory above a ratio of 4 mol M2+/mol of enzyme
Fe
Fe2+
Fe3+
maximum activity at a ratio of 2 mol M3+/mol of enzyme. Inhibitory above a ratio of 4 mol M3+/mol of enzyme
La3+
maximum activity at a ratio of 2 mol M3+/mol of enzyme. Inhibitory above a ratio of 4 mol M3+/mol of enzyme
Mn2+
maximum activity at a ratio of 2 mol M2+/mol of enzyme. Inhibitory above a ratio of 4 mol M2+/mol of enzyme
Pb2+
maximum activity at a ratio of 2 mol M2+/mol of enzyme. Inhibitory above a ratio of 4 mol M2+/mol of enzyme
Zn2+
maximum activity at a ratio of 2 mol M2+/mol of enzyme. Inhibitory above a ratio of 4 mol M2+/mol of enzyme
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existence of an Fe(IV)OH species in chloroperoxidase compound II (reaction intermediate)
Fe
-
the reaction intermediate compound 0 is present in the ferric low-spin doublet ground state and is characterized by a long O-O bond length of 1.5 A and a Fe-O bond distance of 1.8 A
Fe2+
in CPO, the sulfur atom in the Cys29 is located at the appropriate distance from the amide group of the Leu 32 and Glu 51 that leads to the hydrogen bonding formation of the amidesulfur groups, which is important for metalloproteins for the iron alignment