1.1.3.6: cholesterol oxidase
This is an abbreviated version!
For detailed information about cholesterol oxidase, go to the full flat file.
Word Map on EC 1.1.3.6
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1.1.3.6
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biosensors
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electrode
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esterase
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electrochemical
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brevibacterium
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fabric
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oxidases
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amperometric
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film
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rhodococcus
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raft
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cholestenone
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voltammetry
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cholest-4-en-3-one
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flavoenzyme
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cholesteryl
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nanocomposite
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biosensing
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erythropolis
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filipin
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4-cholesten-3-one
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nocardia
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medicine
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3hcholesterol
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electropolymerization
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lavendulae
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biotechnology
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agriculture
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co-immobilized
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methyl-beta-cyclodextrin
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diagnostics
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bioelectrode
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luminol
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screen-printed
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electrocatalytic
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analysis
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3.1.1.13
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polypyrrole
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multiwalled
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beta-ol
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synthesis
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drug development
- 1.1.3.6
-
biosensors
-
electrode
- esterase
-
electrochemical
- brevibacterium
-
fabric
- oxidases
-
amperometric
-
film
- rhodococcus
-
raft
- cholestenone
-
voltammetry
- cholest-4-en-3-one
-
flavoenzyme
-
cholesteryl
-
nanocomposite
-
biosensing
- erythropolis
- filipin
- 4-cholesten-3-one
- nocardia
- medicine
-
3hcholesterol
-
electropolymerization
- lavendulae
- biotechnology
- agriculture
-
co-immobilized
- methyl-beta-cyclodextrin
- diagnostics
-
bioelectrode
- luminol
-
screen-printed
-
electrocatalytic
- analysis
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3.1.1.13
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polypyrrole
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multiwalled
- beta-ol
- synthesis
- drug development
Reaction
Synonyms
3beta-hydroxy steroid oxidoreductase, 3beta-hydroxysteroid: oxygen oxidoreductase, 3beta-hydroxysteroid:oxygen oxidoreductase, 3beta-hydroxysterol oxidase, BsChOx, CgChoA, CHO, CHO-U, ChO3, ChoA, choBb, CHOD, ChoG, ChoL, cholesterol oxidase, cholesterol oxidase I, cholesterol oxidase II, cholesterol-O2 oxidoreductase, CHOLOX, choM, ChoM1, ChoM2, choP, ChoRI, ChoRII, ChoS, ChOx, CO, CO1, COase, COD, COD-B, COX, HCEO-forming enzyme, HMPREF0204_11499, oxidase, cholesterol, PimE, ShChOx, type I ChOx
ECTree
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Source Tissue
Source Tissue on EC 1.1.3.6 - cholesterol oxidase
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the strain reaches its maximal utilization of cholesterol as the only C source for production of extracellular cholesterol oxidase
additional information
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production of cholesterol oxidase under batch conditions through Ca-alginate immobilized cells of Streptomyces sp., optimization of immobilization method and production conditions, overview. The enzyme production with immobilized cells is higher in comparison to free cells under optimized conditions. Production medium inoculated with 2% v/v or 8.8 mg dry cell weight seed culture and incubated at 200 rpm and 30°C for 96 h gves maximum COD enzyme production after 96 h whereas the immobilized culture gives maximum production at 37°C and 300 rpm after 72 h of incubation. The immobilized cells can be used for three consecutive fermentation cycles for COD production in higher quantities as compared with free cells
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enzyme production reaches its maximum by incubation at 30°C for 12 d
additional information
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optimization of conditions for cholesterol oxidase production by the microorganism isolated from urban compost and dairy soil samples, optimal conditions for production of enzyme CHO from Rhodococcus sp. strain COP2 are pH 7.5 and 35°C, effect of inorganic and organic nitrogen sources on enzyme production, overview
additional information
Rhodococcus sp. COP 2
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optimization of conditions for cholesterol oxidase production by the microorganism isolated from urban compost and dairy soil samples, optimal conditions for production of enzyme CHO from Rhodococcus sp. strain COP2 are pH 7.5 and 35°C, effect of inorganic and organic nitrogen sources on enzyme production, overview
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additional information
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Streptomyces parvus shows markedly high cho activity in culture broth
additional information
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Streptomyces parvus shows markedly high cho activity in culture broth
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additional information
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effect of carbon and nitrogen sources on COD production, highest activity on lactose and sucrose and on yeast extract, respectively, overview
additional information
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optimization of cell growth and cholesterol oxidase production by using Streptomyces sp. strain NCIM 5500 using artificial neural networks (ANNs), complex mathematical models that successfully mimic biological neural networks, modeling, development and optomizationof a regression model, overview
additional information
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effect of carbon and nitrogen sources on COD production, highest activity on lactose and sucrose and on yeast extract, respectively, overview
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