1.1.3.9: galactose oxidase
This is an abbreviated version!
For detailed information about galactose oxidase, go to the full flat file.
Word Map on EC 1.1.3.9
-
1.1.3.9
-
neuraminidase
-
copper
-
borohydride
-
lymphocyte
-
lectin
-
sialic
-
tritiated
-
mitogen
-
concanavalin
-
glycolipids
-
galactosyl
-
glycoconjugates
-
agglutinin
-
nab3h4
-
ganglioside
-
dendroides
-
phenoxyl
-
hydrazide
-
sialylation
-
borotritide
-
graminearum
-
one-electron
-
sialoglycoproteins
-
sialidase
-
galactosamine
-
copper-containing
-
n-acetylgalactosaminyl
-
desialylated
-
naio4
-
synthesis
-
lactoperoxidase
-
galactose-containing
-
degradation
-
diagnostics
-
molecular biology
-
energy production
-
analysis
-
biotechnology
- 1.1.3.9
- neuraminidase
- copper
- borohydride
- lymphocyte
- lectin
-
sialic
-
tritiated
-
mitogen
-
concanavalin
- glycolipids
-
galactosyl
- glycoconjugates
- agglutinin
-
nab3h4
- ganglioside
- dendroides
-
phenoxyl
- hydrazide
-
sialylation
-
borotritide
- graminearum
-
one-electron
-
sialoglycoproteins
- sialidase
- galactosamine
-
copper-containing
-
n-acetylgalactosaminyl
-
desialylated
- naio4
- synthesis
- lactoperoxidase
-
galactose-containing
- degradation
- diagnostics
- molecular biology
- energy production
- analysis
- biotechnology
Reaction
Synonyms
AOd, At1g14430, At1g19900, At1g67290, At1g75620, At3g53950, At3g57620, At5g19580, beta-galactose oxidase, D-galactose oxidase, F5K20_250, FgrGalOx, galactose 6-oxidase, galactose oxidase, GalOx, GAO, GAOA, GAOX, GLOX1, Glox2, Glox3, GLOX4, GLOX5, GLOX6, GO, GOase, RUBY, RUBY PARTICLES IN MUCILAGE
ECTree
Advanced search results
Inhibitors
Inhibitors on EC 1.1.3.9 - galactose oxidase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
ganglioside
Polyporus circinatus
-
bovine brain and Tay-Sachs disease gangliosides: competitive inhibition
inhibits the formation of the thioether bond under anaerobic conditions (posttranslational modification)
-
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
H2O2
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
H2O2
-
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
H2O2
-
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
H2O2
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity; high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
H2O2
-
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
H2O2
high concentrations of hydrogen peroxide inactivate GAO, catalase can be added to the reaction mixture to degrade H2O2 and prolong GAO activity
N-bromosuccinimide
-
complete inactivation by oxidation of active center tryptophan
-
no inhibition: EDTA, Tween 80, NH4+, Na+, Mg2+, K+, and glycerol
-
additional information
-
in both active and inactive forms, protein monomer integrity is lost with a single radiation interaction anywhere in the polypeptide, but enzymatic activity is more resistant, yielding target sizes considerably smaller than that of the monomer
-