1.4.3.19: glycine oxidase
This is an abbreviated version!
For detailed information about glycine oxidase, go to the full flat file.
Word Map on EC 1.4.3.19
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1.4.3.19
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d-amino
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sarcosine
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flavoproteins
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glyphosate
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flavin
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fad
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tryptophylquinone
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flavoenzyme
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herbicide
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d-proline
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homotetrameric
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d-alanine
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pseudoalteromonas
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luteoviolacea
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protein-derived
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thios
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fad-dependent
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site-saturation
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fad-binding
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quinoprotein
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ttq
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half-reaction
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5-enolpyruvylshikimate-3-phosphate
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fad-containing
- 1.4.3.19
-
d-amino
- sarcosine
- flavoproteins
- glyphosate
- flavin
- fad
-
tryptophylquinone
-
flavoenzyme
-
herbicide
- d-proline
-
homotetrameric
- d-alanine
-
pseudoalteromonas
- luteoviolacea
-
protein-derived
-
thios
-
fad-dependent
-
site-saturation
-
fad-binding
-
quinoprotein
- ttq
-
half-reaction
- 5-enolpyruvylshikimate-3-phosphate
-
fad-containing
Reaction
Synonyms
BcGO, glycin oxidase, glycine:oxygen oxidoreductase (deaminating), GlyOX, GO, GOX, GoxA, GOXK, GoxR, LodA, PlGoxA, ThiO
ECTree
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General Information
General Information on EC 1.4.3.19 - glycine oxidase
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metabolism
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in a soil without previous exposure to herbicides, glycine oxidase gene (thiO) increases over time after glyphosate application with most genotypes belonging to the Bradyrhizobium jicamae and Bradyrhizobium elkanni supergroups. Conversely, in an agricultural soil with more than 10 years of continuous glyphosate application, the abundance of thiO gene decreases and most genotypes belonged to Bradyrhizobium japonicum supergroup. The relationship between the abundance of thiO gene and the GP degraded in soil point to the use of thiO gene as a proxy for glyphosate degradation in soil
metabolism
-
in a soil without previous exposure to herbicides, glycine oxidase gene (thiO) increases over time after glyphosate application with most genotypes belonging to the Bradyrhizobium jicamae and Bradyrhizobium elkanni supergroups. Conversely, in an agricultural soil with more than 10 years of continuous glyphosate application, the abundance of thiO gene decreases and most genotypes belonged to Bradyrhizobium japonicum supergroup. The relationship between the abundance of thiO gene and the GP degraded in soil point to the use of thiO gene as a proxy for glyphosate degradation in soil