1.2.3.4: oxalate oxidase
This is an abbreviated version!
For detailed information about oxalate oxidase, go to the full flat file.
Word Map on EC 1.2.3.4
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1.2.3.4
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wheat
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barley
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sclerotinia
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apoplastic
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powdery
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mildew
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pathogenesis-related
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sclerotiorum
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graminis
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hyperoxaluria
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blumeria
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hordei
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erysiphe
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nodorum
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bicupins
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dentata
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castanea
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oxalate-degrading
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berk
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alkylamine
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septoria
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medicine
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analysis
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industry
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synthesis
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agriculture
- 1.2.3.4
- wheat
- barley
- sclerotinia
- apoplastic
-
powdery
- mildew
-
pathogenesis-related
- sclerotiorum
- graminis
- hyperoxaluria
- blumeria
-
hordei
- erysiphe
- nodorum
-
bicupins
- dentata
-
castanea
-
oxalate-degrading
-
berk
- alkylamine
- septoria
- medicine
- analysis
- industry
- synthesis
- agriculture
Reaction
Synonyms
aero-oxalo dehydrogenase, Germin, Germin GF-2.8, Germin GF-3.8, germin-like oxidase, germin-like protein, gl-OXO, glp1, GLP2, HvOxo1, oxalate oxidase, oxalate oxidase GF-2.8, oxalate: O2 oxidoreductase, oxalate:oxygen oxidoreductase, oxalic acid oxidase, OXO, OXO-G, OXO1, OXO2, OXO3, OXO4, OxOx, TaOxo1, TaOxo2
ECTree
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Source Tissue
Source Tissue on EC 1.2.3.4 - oxalate oxidase
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additional information
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no activity in non-germinated or germinated seeds or cultivated calli
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after 24 h of induction on auxin-containing medium gl-OXO activity is readily detectable within the embryo, particularly within the coleorhiza and on the residual cells of the suspensor
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When embryos are cultured together with endosperms (endosperm-supported culture, ES), the percentage of callus induction is significantly lower than that when embryos are cultured in the absence of endosperm (non-endosperm-supported culture, NES). The activity of oxalate oxsidase in the callus of ES culture is higher than that in the callus of NES culture, suggesting that the activity of oxalate oxidase may be a parameter for selection of calli with potential for plantlet regeneration
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fresh or heat dried (55°C for 16 h, with T increased in 5°C steps to reach 75°C) radicles are used. Heat drying reduces the rate of oxalate degradation activity by approximately half. Deep-freezing the radicles to -20°C does not lead to any loss of oxalate degradation activity within 4 weeks of storage
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different developmental stages were examined (complete seedling with radicles) with the oxalate degradation rate being similarly high for 4-8-old seedlings