1.1.3.17: choline oxidase
This is an abbreviated version!
For detailed information about choline oxidase, go to the full flat file.
Word Map on EC 1.1.3.17
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1.1.3.17
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acetylcholine
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electrode
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acetylcholinesterase
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biosensors
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betaine
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electrochemical
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ache
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amperometric
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arthrobacter
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globiformis
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glycinebetaine
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organophosphorus
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co-immobilized
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luminol
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post-column
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screen-printed
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prussian
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electropolymerized
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butyrylcholine
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4-aminoantipyrine
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bienzymatic
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four-electron
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analysis
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choline-containing
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polypyrrole
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alkoxide
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3.1.1.8
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nafion
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enzyme-modified
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electrodeposited
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co-crosslinking
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agriculture
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synthesis
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nutrition
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biotechnology
- 1.1.3.17
- acetylcholine
-
electrode
- acetylcholinesterase
-
biosensors
- betaine
-
electrochemical
-
ache
-
amperometric
- arthrobacter
- globiformis
- glycinebetaine
-
organophosphorus
-
co-immobilized
- luminol
-
post-column
-
screen-printed
-
prussian
-
electropolymerized
- butyrylcholine
- 4-aminoantipyrine
-
bienzymatic
-
four-electron
- analysis
-
choline-containing
-
polypyrrole
-
alkoxide
-
3.1.1.8
-
nafion
-
enzyme-modified
-
electrodeposited
-
co-crosslinking
- agriculture
- synthesis
- nutrition
- biotechnology
Reaction
Synonyms
alkaliphilic choline oxidase, ANI01nite_22550, An_CodA, APChO-syn, CHO, choline oxidase, choline-oxygen 1-oxidoreductase, choline:oxygen 1-reductase, ChOx, ChOx protein, codA, COX
ECTree
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Application
Application on EC 1.1.3.17 - choline oxidase
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agriculture
analysis
biotechnology
nutrition
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introducing of the codA gene into a cereal crop allows the biosynthesis of glycinebetaine
synthesis
a bienzymatic cascade for selective sulfoxidation uses an evolved recombinant peroxygenase from Agrocybe aegeritra which catalyzes the enantioselective sulfoxidation of thioanisole whereas the choline oxidase from Arthrobacter nicotianae provides the H2O2 necessary via reductive activation of ambient oxygen. The reactions are performed in choline chloride-based deep eutectic solvents serving as cosolvent and stoichiometric reductant at the same time. Product concentrations of up to 15 mM enantiopure sulfoxide and turnover numbers of 150,000 and 2100 for the peroxygenase and oxidase, respectively have been achieved
additional information
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enzyme is of both biotechnological and medical interest, since glycine betaine can be accumulated in the cytoplasm of cells to prevent dehydration and plasmolysis in adverse hyperosmotic environments in pathogenic bacteria
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transformation enables the plants to accumulate glycinebetaine in chloroplasts and significantly enhances the freezing tolerance of plants
agriculture
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introducing of the codA gene into a cereal crop allows the biosynthesis of glycinebetaine by transgenic plants without any need for an exogenous supply of choline or glycinebetaine aldehyde
agriculture
expression of CodA in potato plastid genome results in much higher mRNA level of CodA in leaves than in tubers. Glycine betaine accumulates in similar levels in both leaves and tubers of CodA-transplastomic potato plants. The glycine betaine content is moderately increased in transgenic plants, and compartmentation of glycine betaine in plastids confers considerably higher tolerance to drought stress compared to wild-type plants, with higher levels of relative water content and chlorophyll content under drought stress. Transplastomic plants present a significantly higher photosynthetic performance as well as antioxidant enzyme activities during drought stress
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investigation of an acetylcholinesterase/choline oxidase-based amperometric biosensor as a liqid chromatography detector for acetylcholine determination in brain tissue
analysis
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two-enzyme sensor for determination of choline esters prepared by covalent co-immobilization of choline oxidase and butyrylcholinesterase
analysis
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the immobilized enzyme is used in amperometric biosensors for choline detection, method evaluation
analysis
determination of lead ions by inhibition of choline oxidase enzyme using an amperometric choline biosensor. Choline oxidase is immobilized on a glassy carbon electrode modified with multiwalled carbon nanotubes through cross-linking with glutaraldehyde. In the presence of choline oxidase, choline is enzymatically oxidized into betaine at -0.3 V versus Ag/AgCl reference electrode, lead ion inhibition of enzyme activity causing a decrease in the choline oxidation current. Under the best conditions for measurement of the lowest concentrations of lead ions, the choline oxidase/multiwalled carbon nanotubes/glassy carbon electrode gives a linear response from 0.1 to 1.0 nM Pb2+ and a detection limit of 0.04 nM
analysis
development of a metal composite material based on zirconium dioxide decorated gold nanoparticles (ZrO2 at AuNPs), copper (I) oxide at manganese (IV) oxide (Cu2O at MnO2) and immobilized choline oxidase (ChOx) onto a glassy carbon electrode (GCE) (ChOx/Cu2O at MnO2-ZrO2 at AuNPs/GCE) for enhancing the electro-catalytic property, sensitivity and stability of the amperometric choline biosensor. The ChOx/Cu2O at MnO2-ZrO2 at AuNPs/GCE displays a good electrocatalytic response to the oxidation of the byproduct H2O2 from the choline catalyzed reaction. The modified electrode also provides a wide linear range of choline concentration from 0.5 to 1000.0 microM with good sensitivity and low detection limit (0.3 microM). The apparent Michaelis-Menten constant is 0.08 mM with Imax of 0.67 microA. The choline biosensor presents high repeatability, good reproducibility, long time of use and good selectivity without interfering effects from possible electroactive species such as ascorbic acid, aspirin, amoxicillin, caffeine, dopamine, glucose, sucrose and uric acid
analysis
facile and sensitive colorimetric biosensor based on DNAzyme-choline oxidase coupling used for the determination of choline. In this method, choline oxidase produces H2O2 and betaine in the presence of choline and oxygen, then, the DNAzyme converts colorless ABTS into green ABTS+ radicals. The linear range and the limit of detection of this biosensor are 0.1-25 microM and 22 nM. Choline measurement using this biosensor shows satisfactory selectivity and repeatability. Its recovery is 96.95-107.73% in biological samples
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the immobilized enzyme is used in amperometric biosensors
biotechnology
development of inhibition biosensors for pesticide determination, butyrylcholinesterase/choline oxidase enzyme electrode and tyrosine electrode compared