1.21.4.5: tetrachlorohydroquinone reductive dehalogenase
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For detailed information about tetrachlorohydroquinone reductive dehalogenase, go to the full flat file.
Word Map on EC 1.21.4.5
-
1.21.4.5
-
pentachlorophenol
-
dehalogenation
-
trichlorohydroquinone
-
chlorophenolicum
-
s-transferase
-
sphingobium
-
dithiothreitol
-
chlorinate
-
sphingomonas
-
gst
-
maleylacetoacetate
-
thiol-disulfide
-
glutathione-dependent
-
isomerization
-
deprotonated
-
maleylacetone
-
maleylpyruvate
-
electrophilic
-
cosubstrate
-
elementary
-
pcp
-
chrysosporium
-
aldolase
-
theta
-
phanerochaete
- 1.21.4.5
- pentachlorophenol
-
dehalogenation
-
trichlorohydroquinone
- chlorophenolicum
- s-transferase
-
sphingobium
- dithiothreitol
-
chlorinate
- sphingomonas
- gst
- maleylacetoacetate
-
thiol-disulfide
-
glutathione-dependent
-
isomerization
-
deprotonated
- maleylacetone
- maleylpyruvate
-
electrophilic
-
cosubstrate
-
elementary
- pcp
-
chrysosporium
- aldolase
- theta
-
phanerochaete
Reaction
Synonyms
PCP hydroxylase, pcpC, TCHQ dehalogenase, tetrachloro-p-hydroquinone reductive dehalogenase, tetrachlorohydroquinone dehalogenase, tetrachlorohydroquinone reductive dehalogenase
ECTree
1.21.4.5 tetrachlorohydroquinone reductive dehalogenaseAdvanced search results
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results (Oxidation Stability
Oxidation Stability on EC 1.21.4.5 - tetrachlorohydroquinone reductive dehalogenase
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OXIDATION STABILITY 
ORGANISM
UNIPROT
LITERATURE
sensitive to oxygen, a loss of enzyme activity occurrs when DTT is not included in elution buffers during purification
750940
the enzyme undergoes oxidative damage during purification which causes it to form aberrant products. The damage is reversible by treatment with dithiothreitol. Possible types of oxidative damage include an inappropriate disulfide bond, a cysteine sulfenic acid, or a methionine sulfoxide
750285
