3.8.1.8: atrazine chlorohydrolase
This is an abbreviated version!
For detailed information about atrazine chlorohydrolase, go to the full flat file.
Word Map on EC 3.8.1.8
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3.8.1.8
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herbicide
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adp
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dechlorination
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hydroxyatrazine
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arthrobacter
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s-triazine
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amidohydrolase
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nocardioides
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melamine
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atrazine-degrading
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bioremediation
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agriculture
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haematococcus
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ametryn
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cyanuric
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aurescens
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phytoremediation
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analysis
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environmental protection
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biotechnology
- 3.8.1.8
-
herbicide
- adp
-
dechlorination
- hydroxyatrazine
- arthrobacter
- s-triazine
-
amidohydrolase
- nocardioides
- melamine
-
atrazine-degrading
-
bioremediation
- agriculture
- haematococcus
- ametryn
-
cyanuric
- aurescens
-
phytoremediation
- analysis
- environmental protection
- biotechnology
Reaction
Synonyms
atrazine chlorohydrolase, atrazine chlorohydrolase 2, atrazine dechlorinase, AtzA, AtzB, dechlorinase, atrazine (9CI), hydroxyatrazine N-ethylaminohydrolase, More, triazine hydrolase, TrZN
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Application
Application on EC 3.8.1.8 - atrazine chlorohydrolase
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agriculture
analysis
biotechnology
environmental protection
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atrazine metabolites, i.e. alkylamines, are toxic in higher concentrations for the bacteria without buffered milieu due to low pH
agriculture
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degradation of chemically stable and toxic herbicide atrazine in soil and groundwater to non-toxic hydroxyatrazine
agriculture
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degradation of chemically stable and toxic herbicide atrazine in soil and groundwater to non-toxic hydroxyatrazine
agriculture
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degradation of chemically stable and toxic herbicide atrazine in soil and groundwater to non-toxic hydroxyatrazine
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fiber-optic biosensors for detection of atrazine at low concentrations in soil using the atrazine chlorohydrolase and quantification of hydrochloric acid release, optimization, overview
analysis
Clavibacter michiganese
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fiber-optic biosensors for detection of atrazine at low concentrations in soil using the atrazine chlorohydrolase and quantification of hydrochloric acid release, optimization, overview
analysis
Clavibacter michiganese ATZ1
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fiber-optic biosensors for detection of atrazine at low concentrations in soil using the atrazine chlorohydrolase and quantification of hydrochloric acid release, optimization, overview
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bioremidiation, use of enhanced expression of a modified bacterial atrazine chlorohydrolase, p-AtzA, in transgenic grasses, tall fescue or Festuca arundinacea, ryegrass or Lolium perenne, and switchgrass or Panicum virgatum, and the legume alfalfa, Medicago sativa, for the biodegradation of atrazine
environmental protection
biodegradation by cells encapsulated in silica gel is an economical and environmentally friendly method for the removal of toxic chemicals from the environment. Recombinant Escherichia coli expressing atrazine chlorohydrolase are encapsulated in organically modified silica gels composed of TEOS, silica nanoparticles, and either phenyltriethoxysilane or methyltriethoxysilane. The optimized PTES and MTES gels have atrazine biodegradation rates of 0.041 and 0.047 mol/ml gel, respectively. The rates are approximately 80% higher than that measured in the TEOS gel. Optimized hydrophobic gel material design can be used to enhance both removal and biodegradation of hydrophobic chemicals like atrazine