1.14.14.164: fraxetin 5-hydroxylase
This is an abbreviated version!
For detailed information about fraxetin 5-hydroxylase, go to the full flat file.
Word Map on EC 1.14.14.164
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1.14.14.164
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hydrogenases
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desulfovibrio
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nickel
-
viologen
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nifes
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rhizobium
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japonicum
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ferredoxins
-
gigas
-
alcaligenes
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iron-sulfur
-
monoxide
-
nitrogenase
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azotobacter
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ni
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eutrophus
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roseopersicina
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pasteurianum
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thiocapsa
-
bradyrhizobium
-
hupsl
-
fefe-hydrogenase
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h-cluster
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nickel-containing
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electrocatalytic
-
chromatium
-
hildenborough
-
vinelandii
-
diiron
-
leguminosarum
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desulfuricans
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miyazaki
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vinosum
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photocatalytic
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sulfate-reducing
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hydrogen-oxidizing
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iron-only
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methylviologene
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hype
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h2-dependent
-
overpotential
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niiii
-
biohydrogen
-
hydrogenlyase
-
h2-oxidizing
-
chroococcum
-
synthesis
- 1.14.14.164
-
hydrogenases
-
desulfovibrio
- nickel
-
viologen
-
nifes
-
rhizobium
-
japonicum
-
ferredoxins
-
gigas
-
alcaligenes
-
iron-sulfur
-
monoxide
- nitrogenase
-
azotobacter
- ni
-
eutrophus
-
roseopersicina
-
pasteurianum
-
thiocapsa
-
bradyrhizobium
-
hupsl
-
fefe-hydrogenase
-
h-cluster
-
nickel-containing
-
electrocatalytic
-
chromatium
-
hildenborough
-
vinelandii
-
diiron
-
leguminosarum
-
desulfuricans
-
miyazaki
-
vinosum
-
photocatalytic
-
sulfate-reducing
-
hydrogen-oxidizing
-
iron-only
-
methylviologene
-
hype
-
h2-dependent
-
overpotential
-
niiii
-
biohydrogen
- hydrogenlyase
-
h2-oxidizing
-
chroococcum
- synthesis
Reaction
Synonyms
At4g31940, CYP82C4, fraxetin 5-monooxygenase
ECTree
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General Information
General Information on EC 1.14.14.164 - fraxetin 5-hydroxylase
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metabolism
the enzyme is involved in biosynthesis of iron(III)-chelating coumarins in higher plants. Under iron-deficiency conditions, a branch of the phenylpropanoid pathway consisting of feruloyl-CoA 6'-hydroxylase 1, scopoletin 8-hydroxylase, and CYP82C4 is strongly induced, thus leading to the synthesis of scopoletin and its conversion into redox-active fraxetin and sideretin. In the rhizosphere, the redox-active coumarins act in concert with other components of the strategy I iron acquisition machinery by solubilizing and reducing iron from sparingly available sources
metabolism
the enzymse is involved in the early Fe deficiency response, possibly through an IDE1-like mediated pathway