1.14.11.9: flavanone 3-dioxygenase
This is an abbreviated version!
For detailed information about flavanone 3-dioxygenase, go to the full flat file.
Word Map on EC 1.14.11.9
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1.14.11.9
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chalcone
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anthocyanins
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dihydroflavonols
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flavonols
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anthocyanidin
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4-reductase
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ammonia-lyase
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3\'-hydroxylase
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petunia
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proanthocyanidins
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dihydrokaempferol
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leucoanthocyanidin
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3-o-glucosyltransferase
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2-oxoglutarate-dependent
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3',5'-hydroxylase
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r2r3-myb
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eriodictyol
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analysis
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testa
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udp-glucose:flavonoid
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2s-flavanones
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4-coumarate-coa
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dihydroflavonol-4-reductase
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dihydroquercetin
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2s-naringenin
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pelargonidin
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synthesis
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agriculture
- 1.14.11.9
- chalcone
- anthocyanins
- dihydroflavonols
- flavonols
- anthocyanidin
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4-reductase
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ammonia-lyase
-
3\'-hydroxylase
- petunia
- proanthocyanidins
- dihydrokaempferol
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leucoanthocyanidin
- 3-o-glucosyltransferase
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2-oxoglutarate-dependent
-
3',5'-hydroxylase
-
r2r3-myb
- eriodictyol
- analysis
-
testa
-
udp-glucose:flavonoid
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2s-flavanones
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4-coumarate-coa
- dihydroflavonol-4-reductase
- dihydroquercetin
- 2s-naringenin
- pelargonidin
- synthesis
- agriculture
Reaction
Synonyms
(2S)-flavanone 3-hydroxylase, AaF3H, AcF3H, BnF3H, CsF3H, CtF3H, F3H, F3H protein, F3H1, F3H2, FHT, FHTPH, flavanone 3-dioxygenase, flavanone 3-hydroxylase, flavanone 3beta-hydroxylase, flavanone synthase I, flavanone-3-hydroxylase, FLS1, FLS2, FS I, LcF3H, naringenin 3-dioxygenase, naringenin,2-oxoglutarate:oxygen oxidoreductase (3-hydroxylating), oxygenase, flavanone 3-di-, PeF3H, PgF3H, PnF3H, RtF3H1, RtF3H2, VcF3H
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Source Tissue
Source Tissue on EC 1.14.11.9 - flavanone 3-dioxygenase
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additional information
the transcriptome expression of CtF3H shows a diametrically opposed expression pattern in a quinochalcone-type safflower line (with orange-yellow flowers) and a flavonol-type safflower line (with white flowers) under external stimulation by methyl jasmonate (MeJA), which has been identified as an elicitor of flavonoid metabolites. High expression of CtF3H in quinochalcone-type safflower line
enzyme expression analysis of AcF3H at different developmental stages and in different parts of the flower, overview. The highest enzyme expression occurs when the petals turned pale-orange
x Ascocenda NK-2012
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enzyme expression analysis of AcF3H at different developmental stages and in different parts of the flower, overview. The highest enzyme expression occurs when the petals turned pale-orange
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increase in transcript level of PgF3H with respect to the growth of the fruits
positive correlation between the concentration of catechins and the expression of flavonol 3-hydroxylase in different developmental stages. Expression is down-regulated in response to drought and gibberellic acid treatment, but up-regulated in response to wounding
positive correlation between the concentration of catechins and F3H expression in leaves of different developmental stages
high transcript levels of gene RtF3H2 in roots and stems
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enzyme shows a drastic increase in activity after illumination and reaches a maximum at the time of rapid anthocyanin accumulation
high transcript levels of gene RtF3H1 in stems, high transcript levels of gene RtF3H2 in roots and stems
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the AaF3H transcripts are accumulated in the cultivar with higher level of flavonoids than that with lower level of flavonoids
additional information
tissue pattern of enzyme expression, overview
additional information
expression of F3H is specifically regulated in petals and stamens. The F3H expression is slightly diminished in petals of cultivar Satabankacha at the fully-opening stage, whereas it is detected in the cultivar Buntharik only when white petals are tinted with pink.
additional information
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protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
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no activity in leaves, protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
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protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
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protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
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protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
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protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
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protein content of the enzyme in the different plants and tissue preparations obtained with two different protocols
additional information
the F3H gene is highly activated in the red grains and coleoptiles, no expression in white grains
additional information
the F3H gene is highly activated in the red grains and coleoptiles, no expression in white grains
additional information
the F3H gene is highly activated in the red grains and coleoptiles, no expression in white grains
additional information
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the F3H gene is highly activated in the red grains and coleoptiles, no expression in white grains
additional information
the F3H gene is highly activated in the red grains and coleoptiles, only slight expression in white grains
additional information
the F3H gene is highly activated in the red grains and coleoptiles, only slight expression in white grains
additional information
the F3H gene is highly activated in the red grains and coleoptiles, only slight expression in white grains
additional information
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the F3H gene is highly activated in the red grains and coleoptiles, only slight expression in white grains
additional information
tissue enzyme expression pattern analysis, the enzyme is ubiquitously expressed