1.14.14.81: flavanoid 3',5'-hydroxylase
This is an abbreviated version!
For detailed information about flavanoid 3',5'-hydroxylase, go to the full flat file.
Word Map on EC 1.14.14.81
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1.14.14.81
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anthocyanins
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3\'-hydroxylase
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delphinidin
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flavonols
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dihydroflavonols
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4-reductase
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berry
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petunia
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cyanidin
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b-ring
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delphinidin-based
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pelargonidin
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gentian
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leucoanthocyanidins
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3',5'-hydroxylated
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malvidin
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3-o-glucosyltransferase
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dihydrokaempferol
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flavan-3-ols
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cyp75b
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petunidin
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f3\'hs
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co-pigment
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nutrition
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red-skinned
- 1.14.14.81
- anthocyanins
-
3\'-hydroxylase
- delphinidin
- flavonols
- dihydroflavonols
-
4-reductase
-
berry
- petunia
- cyanidin
-
b-ring
-
delphinidin-based
- pelargonidin
- gentian
-
leucoanthocyanidins
-
3',5'-hydroxylated
- malvidin
- 3-o-glucosyltransferase
- dihydrokaempferol
-
flavan-3-ols
- cyp75b
- petunidin
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f3\'hs
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co-pigment
- nutrition
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red-skinned
Reaction
Synonyms
Cyp75A, CYP75A31, CYP75A42, CYP75A47, CYP75A48, cytochrome P450-like flavonoid 3'5'-hydroxylase, DkF3'5'H, EC 1.14.13.88, F3',5'H, F3'5'H, flavonoid 3',5'-hydroxylase, flavonoid 3'5' hydroxylase, flavonoid 3'5'-hydroxylase, More, plant P450 flavonoid 3',5'-hydroxylase
ECTree
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nutrition
additional information
the strong catechin-associated SNPs identified in this study can be used for future marker-assisted selection to improve tea quality
nutrition
the strong catechin-associated SNPs identified in this study can be used for future marker-assisted selection to improve tea quality
understanding the regulation of flavonoid hydroxylases could be used to modify flavonoid composition of fruits
additional information
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understanding the regulation of flavonoid hydroxylases could be used to modify flavonoid composition of fruits
additional information
introduction of the F3'5'H gene encoding flavonoid 3',5'-hydroxylase can produce delphinidin in various flowers such as roses and carnations, turning the flower color purple or violet. Blue chrysanthemum is produced by introducing the A3'5'GT gene encoding anthocyanin 3',5'-O-glucosyltransferase, in addition to F3'5'H encoding flavonoid 3',5'-hydroxylase, into the host plant. The B-ring glucosylated delphinidin-based anthocyanin that is synthesized by the two transgenes develops blue coloration by co-pigmentation with colorless flavone glycosides naturally present in the ray floret of chrysanthemum
additional information
two transgenes, namely, CamF3'5'H and CtA3'5'GT, are enough to generate blue chrysanthemum: The 3',5'-diglucosylated delphinidin exhibits a blue color by intermolecular association with flavone glucosides under the weakly acidic pH conditions of general flower petals
additional information
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two transgenes, namely, CamF3'5'H and CtA3'5'GT, are enough to generate blue chrysanthemum: The 3',5'-diglucosylated delphinidin exhibits a blue color by intermolecular association with flavone glucosides under the weakly acidic pH conditions of general flower petals