3.8.1.5: haloalkane dehalogenase
This is an abbreviated version!
For detailed information about haloalkane dehalogenase, go to the full flat file.
Word Map on EC 3.8.1.5
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3.8.1.5
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xanthobacter
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autotrophicus
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dehalogenation
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1,2-dichloroethane
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halide
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carbon-halogen
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1,2-dibromoethane
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sphingomonas
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paucimobilis
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1,2,3-trichloropropane
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synthesis
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hexachlorocyclohexane
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rhodochrous
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sphingobium
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environmental protection
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alkyl-enzyme
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haloacid
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1-chlorobutane
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2-chloroethanol
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ncimb
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chloroalkane
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dehydrochlorinase
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epichlorohydrine
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gamma-hexachlorocyclohexane
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halotag
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biotechnology
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alpha/beta-hydrolase
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haloalcohols
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agriculture
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halide-binding
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degradation
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industry
- 3.8.1.5
- xanthobacter
- autotrophicus
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dehalogenation
- 1,2-dichloroethane
- halide
-
carbon-halogen
- 1,2-dibromoethane
- sphingomonas
- paucimobilis
- 1,2,3-trichloropropane
- synthesis
- hexachlorocyclohexane
- rhodochrous
- sphingobium
- environmental protection
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alkyl-enzyme
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haloacid
- 1-chlorobutane
- 2-chloroethanol
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ncimb
-
chloroalkane
- dehydrochlorinase
- epichlorohydrine
- gamma-hexachlorocyclohexane
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halotag
- biotechnology
-
alpha/beta-hydrolase
- haloalcohols
- agriculture
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halide-binding
- degradation
- industry
Reaction
Synonyms
1,3,4,6,-tetrachloro-1,4-cyclohexadiene halidohydrolase, 1-chlorohexane halidohydrolase, 1-haloalkane dehalogenase, DadB, DatA, DbeA, DbjA, DccA, DhaA, DhaA31, DhaB, DhaC, DhAf, DhlA, DhmA, DmaA, dmbA, DmbB, DmbC, dmlA, DmmA, DmrA, DmrB, DmsA, DmtA, DmxA, DpcA, DppA, DrbA, DsaA, DspA, EC 3.8.1.1, eHLD-B, eHLD-C, haloalkane dehalogenase, haloalkane dehalogenase LinB, HanR, HLD, HLD-I, LinB, LinBMI, LinBUT, metallo-haloalkane dehalogenase, protein XP_504164, Rv2579, Ylehd
ECTree
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Application
Application on EC 3.8.1.5 - haloalkane dehalogenase
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agriculture
biotechnology
degradation
environmental protection
industry
synthesis
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biodegradation of 1,2-dichloropropane and 2-chloropropane via modified enzyme
agriculture
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biodegradation of pollutant insecticide gamma-hexachlorocyclohexane (lindane)
agriculture
biocatalyzation and bioremediation of haloalkanes
agriculture
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biodegradation of 1,2-dichloropropane and 2-chloropropane via modified enzyme
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agriculture
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biodegradation of pollutant insecticide gamma-hexachlorocyclohexane (lindane)
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agriculture
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biocatalyzation and bioremediation of haloalkanes
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enzyme, covalently immobilized on a polyethylenimine impregnated gamma-alumina support with an optimal loading of 70-75 mg/g and a maximal loading of 156 mg/g, retains more than 40% of its maximal activity, unaltered pH dependency compared to the native enzyme, thermostability and resistance towards inactivation by organic solvents of the immobilized enzyme are improved by an order of magnitude
biotechnology
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haloalkane hydrolysis by lyophilized cells in solid/gas biofilter and in the aqueous phase. Comparison of substrates
biotechnology
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hydrolysis of haloalkanes by lyophilized cells in solid-gas biofilter and aqueous phase. For both systems, pH 9.0 and 40°C are the best conditions. In the aqueous phase, cells are less sensitive to variation in pH -value than in gas phase
biotechnology
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hydrolysis of haloalkanes by lyophilized cells in solid-gas biofilter, analysis of reaction with 1-chlorobutane. Activity and stability of cells depends on the quantitiy of HCl produced. Triethylamine is used as a volatile buffer that controls the local pH-value and the dehalogenization state of enzyme. Cells broken by lysozyme are more stable than intact cells. Initial reaction rate of 4.5 micromol per min and mg of cell is observed
biotechnology
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hydrolytic dehalogenation of 1-chlorobutane in a non-conventional gas phase system under a controlled water thermodynamic activity and in aqueous phase. Comparison of Rhodococcus erythropolis and Xanthobacter autotrophicus
biotechnology
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hydrolytic dehalogenation of 1-chlorobutane in a non-conventional gas phase system under a controlled water thermodynamic activity and in aqueous phase. Maximal transformation capacity of 1.4 g of 1-chlorobutane per day with 1 g of Xanthobacter autotrophicus lyophilized cells. Comparison of Rhodococcus erythropolis and Xanthobacter autotrophicus
biotechnology
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hydrolytic dehalogenation of 1-chlorobutane in a non-conventional gas phase system under a controlled water thermodynamic activity and in aqueous phase. Comparison of Rhodococcus erythropolis and Xanthobacter autotrophicus
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biotechnology
-
haloalkane hydrolysis by lyophilized cells in solid/gas biofilter and in the aqueous phase. Comparison of substrates
-
biotechnology
-
hydrolysis of haloalkanes by lyophilized cells in solid-gas biofilter and aqueous phase. For both systems, pH 9.0 and 40°C are the best conditions. In the aqueous phase, cells are less sensitive to variation in pH -value than in gas phase
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biotechnology
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hydrolysis of haloalkanes by lyophilized cells in solid-gas biofilter, analysis of reaction with 1-chlorobutane. Activity and stability of cells depends on the quantitiy of HCl produced. Triethylamine is used as a volatile buffer that controls the local pH-value and the dehalogenization state of enzyme. Cells broken by lysozyme are more stable than intact cells. Initial reaction rate of 4.5 micromol per min and mg of cell is observed
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degradation
potential biocatalyst for bioremediation/biosensing of mixed pollutants
degradation
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potential biocatalyst for bioremediation/biosensing of mixed pollutants
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enzyme might be utilized for bioremediation of organohalide-contaminated industrial waste
environmental protection
P51698
because the halogenated substrates are often environmentally toxic industrial byproducts, the enzyme has been suggested to be an useful catalyst for biodegradation and bioremediation
environmental protection
because the halogenated substrates are often environmentally toxic industrial byproducts, the enzyme has been suggested to be an useful catalyst for biodegradation and bioremediation
environmental protection
because the halogenated substrates are often environmentally toxic industrial byproducts, the enzyme has been suggested to be an useful catalyst for biodegradation and bioremediation
environmental protection
P51698
haloalkane dehalogenases are exploited for clean-up of groundwater contaminated by halogenated compounds, removal of the side-products from chemical synthesis, and biosensors detecting halogenated contaminants in the environment
environmental protection
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haloalkane dehalogenases are key enzymes for the degradation of halogenated aliphatic pollutants
environmental protection
LinB catalyses the conversion of a broad range of halogenated alkanes to their corresponding alcohols which makes it of particular interest for biomediation purposes
environmental protection
organisms producing this enzyme are of great interest as bioremediants, the enzyme has also been shown to have uses in combating chemical warfare where it can act against toxic agents like mustard gas
environmental protection
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DhaA is capable of degrading 1,2,3-trichloropropane, TCP, an industrial waste product that is toxic, extremely recalcitrant to biodegradation, and expensive to dispose of by physical or chemical methods
environmental protection
enzyme DadB and its host, Alcanivorax dieselolei strain B-5, are of potential use for biocatalysis and bioremediation applications
environmental protection
HLD-containing bacteria are interesting as a cleanup technology for toxic haloalkane wastes produced from industries such as plastics and pesticides manufacture
environmental protection
DhaA displayed on the surface of Bacillus subtilis spores retains enzymatic activity, which suggests that it can be used effectively in applications including bioremediation of contaminated environments
environmental protection
potential biocatalyst for bioremediation/biosensing of mixed pollutants
environmental protection
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enzyme might be utilized for bioremediation of organohalide-contaminated industrial waste
-
environmental protection
-
potential biocatalyst for bioremediation/biosensing of mixed pollutants
-
environmental protection
-
HLD-containing bacteria are interesting as a cleanup technology for toxic haloalkane wastes produced from industries such as plastics and pesticides manufacture
-
environmental protection
-
DhaA displayed on the surface of Bacillus subtilis spores retains enzymatic activity, which suggests that it can be used effectively in applications including bioremediation of contaminated environments
-
environmental protection
-
organisms producing this enzyme are of great interest as bioremediants, the enzyme has also been shown to have uses in combating chemical warfare where it can act against toxic agents like mustard gas
-
environmental protection
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enzyme DadB and its host, Alcanivorax dieselolei strain B-5, are of potential use for biocatalysis and bioremediation applications
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a stable mini protein is successfully designed and may be used as bioreceptors in the haloalkane sensor that is suitable for industrial application
industry
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a stable mini protein is successfully designed and may be used as bioreceptors in the haloalkane sensor that is suitable for industrial application
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production of (R)-3-chloropropane-1,2-diol + 2-oxo-propionaldehyde, which are chiral synthons for various chiral pharmaceuticals, agrochemicals and ferro-electroliquid crystals
synthesis
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DhaA produces reaction products (R)- and (S)-2,3-dichloropropan-1-ol, which can be converted to (S)- and (R)-epihydrins, valuable fine chemicals that find application in synthetic routes to several pharmaceutical and healthcare products
synthesis
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haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
synthesis
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haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
synthesis
unique catalytic activity and structural stability of DbjA in a broad pH range, combined with high enantioselectivity with particular substrates, make this enzyme a very versatile biocatalyst
synthesis
enzyme DadB and its host, Alcanivorax dieselolei strain B-5, are of potential use for biocatalysis and bioremediation applications
synthesis
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enzyme DspA is very enantioselective towards 2-bromobutane and may be attractive for biocatalysis
synthesis
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the enzyme might be useful for biocatalytic syntheses in industrial processes
synthesis
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the enzyme might be useful for biocatalytic syntheses in industrial processes
synthesis
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the enzyme might be useful for biocatalytic syntheses in industrial processes
synthesis
the enzymes are of interest for biocatalysis, due to their ability to create enantiomerically pure alcohols
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
-
synthesis
-
the enzyme might be useful for biocatalytic syntheses in industrial processes
-
synthesis
-
unique catalytic activity and structural stability of DbjA in a broad pH range, combined with high enantioselectivity with particular substrates, make this enzyme a very versatile biocatalyst
-
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
-
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
-
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
-
synthesis
-
the enzymes are of interest for biocatalysis, due to their ability to create enantiomerically pure alcohols
-
synthesis
-
enzyme DadB and its host, Alcanivorax dieselolei strain B-5, are of potential use for biocatalysis and bioremediation applications
-
synthesis
-
haloalkane dehalogenases can be used for the production of highly enantioenriched haloalcohols
-