Flower colour and cytochromes P450
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Tanaka, Yoshikazu; Brugliera, Filippa

doi:10.1098/rstb.2012.0432

Cited by 263 publications

(178 citation statements)

References 76 publications

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“…F 0 3 0 5H catalyzes two hydroxylations in the 3 0 and 5 0 -positions of flavonoids which are needed in formation of myricetin and delphinidin derived anthocyanins. Earlier studies with flowers of various species and, e.g., grape berries have shown consistency in accumulation of 3,4,5,-hydroxylated anthocyanins and function of F 0 3 0 5H (Shimada et al 1999;Castellarin and Di Gaspero 2007;Tanaka and Brugliera 2013). Our results suggest that in bog bilberry, VuF3 0 5 0 H is regulated separately from the other flavonoid pathway genes analyzed in the current study.…”

Section: Discussioncontrasting

confidence: 44%

Metabolic and molecular analyses of white mutant Vaccinium berries show down-regulation of MYBPA1-type R2R3 MYB regulatory factor

Primetta

Karppinen

Riihinen

et al. 2015

Planta

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MYBPA1-type R2R3 MYB transcription factor shows down-regulation in white mutant berries of Vaccinium uliginosum deficient in anthocyanins but not proanthocyanidins suggesting a role in the regulation of anthocyanin biosynthesis. Berries of the genus Vaccinium are among the best natural sources of flavonoids. In this study, the expression of structural and regulatory flavonoid biosynthetic genes and the accumulation of flavonoids in white mutant and blue-colored wild-type bog bilberry (V. uliginosum) fruits were measured at different stages of berry development. In contrast to high contents of anthocyanins in ripe blue-colored berries, only traces were detected by HPLC-ESI-MS in ripe white mutant berries. However, similar profile and high levels of flavonol glycosides and proanthocyanidins were quantified in both ripe white and ripe wild-type berries. Analysis with qRT-PCR showed strong down-regulation of structural genes chalcone synthase (VuCHS), dihydroflavonol 4-reductase (VuDFR) and anthocyanidin synthase (VuANS) as well as MYBPA1-type transcription factor VuMYBPA1 in white berries during ripening compared to wild-type berries. The profiles of transcript accumulation of chalcone isomerase (VuCHI), anthocyanidin reductase (VuANR), leucoanthocyanidin reductase (VuLAR) and flavonoid 3'5' hydroxylase (VuF3'5'H) were more similar between the white and the wild-type berries during fruit development, while expression of UDP-glucose: flavonoid 3-O-glucosyltransferase (VuUFGT) showed similar trend but fourfold lower level in white mutant. VuMYBPA1, the R2R3 MYB family member, is a homologue of VmMYB2 of V. myrtillus and VcMYBPA1 of V. corymbosum and belongs to MYBPA1-type MYB family which members are shown in some species to be related with proanthocyanidin biosynthesis in fruits. Our results combined with earlier data of the role of VmMYB2 in white mutant berries of V. myrtillus suggest that the regulation of anthocyanin biosynthesis in Vaccinium species could differ from other species studied.

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Section: Discussioncontrasting

confidence: 44%

Metabolic and molecular analyses of white mutant Vaccinium berries show down-regulation of MYBPA1-type R2R3 MYB regulatory factor

Primetta

Karppinen

Riihinen

et al. 2015

Planta

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“…The F3′H and F3′5′H genes, both of which belong to the cytochrome P450 superfamily, catalyse hydroxylation at the 3′ and 3′, 5′ positions of the B-ring of the flavonoids. This leads to the production of the red cyanidin-based pigments and the blue/violet delphinidin-based pigments, respectively (Ayabe and Akashi, 2006;Tanaka, 2006). In addition to the hydroxylation of anthocyanidins, both genes also catalyse the hydroxylation of flavanones, flavones and flavonols.…”

Section: Introductionmentioning

confidence: 98%

Isolation and molecular characterisation of flavonoid 3′-hydroxylase and flavonoid 3′, 5′-hydroxylase genes from a traditional Chinese medicinal plant, Epimedium sagittatum

Huang

Sun²,

Wang³

2012

Gene

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“…Phylogenetic analysis of F3 0 H and F3 0 5 0 H indicates that genes encoding the enzymes diverted before speciation of flowering plants ( Fig. 2) (Tanaka 2006). Although most flowering plants produce cyanidin, many plant species such as Arabidopsis, rose and carnation do not produce delphinidin due to deficiency of F3 0 5 0 H activity.…”

Section: Introductionmentioning

confidence: 98%

“…Flavonoid 3 0 -hydroxylase (F3 0 H) and flavonoid 3 0 ,5 0 -hydroxylase (F3 0 5 0 H) determine the hydroxylation pattern of the B-ring and are essential to biosynthesize cyanidin (typically conferring red/magenta color) and delphinidin based anthocyanins, respectively ( Fig. 1) (Tanaka 2006). Both of these enzymes belong to the cytochrome P450 superfamily where members are classified into family and subfamily on the basis of their amino acid sequences (Nelson and Werck-Reichhart 2011).…”

Section: Introductionmentioning

confidence: 99%

Functional analysis of Antirrhinum kelloggii flavonoid 3′-hydroxylase and flavonoid 3′,5′-hydroxylase genes; critical role in flower color and evolution in the genus Antirrhinum

2011

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The enzymes flavonoid 3'-hydroxylase (F3'H) and flavonoid 3',5'-hydroxylase (F3'5'H) play an important role in flower color by determining the B-ring hydroxylation pattern of anthocyanins, the major floral pigments. F3'5'H is necessary for biosynthesis of the delphinidin-based anthocyanins that confer a violet or blue color to most plants. Antirrhinum majus does not produce delphinidin and lacks violet flower colour while A. kelloggii produces violet flowers containing delphinidin. To understand the cause of this inter-specific difference in the Antirrhinum genus, we isolated one F3'H and two F3'5'H homologues from the A. kelloggii petal cDNA library. Their amino acid sequences showed high identities to F3'Hs and F3'5'Hs of closely related species. Transgenic petunia expressing these genes had elevated amounts of cyanidin and delphinidin respectively, and flower color changes in the transgenics reflected the type of accumulated anthocyanidins. The results indicate that the homologs encode F3'H and F3'5'H, respectively, and that the ancestor of A. majus lost F3'5'H activity after its speciation from the ancestor of A. kelloggii.

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Flower colour and cytochromes P450

Cited by 263 publications

References 76 publications

Metabolic and molecular analyses of white mutant Vaccinium berries show down-regulation of MYBPA1-type R2R3 MYB regulatory factor

Metabolic and molecular analyses of white mutant Vaccinium berries show down-regulation of MYBPA1-type R2R3 MYB regulatory factor

Isolation and molecular characterisation of flavonoid 3′-hydroxylase and flavonoid 3′, 5′-hydroxylase genes from a traditional Chinese medicinal plant, Epimedium sagittatum

Functional analysis of Antirrhinum kelloggii flavonoid 3′-hydroxylase and flavonoid 3′,5′-hydroxylase genes; critical role in flower color and evolution in the genus Antirrhinum

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