EC Number |
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1.14.14.81 | the gene from Campanula medium is introduced into Chrysanthemum by using binary vector pB249. 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 |
1.14.14.81 | transcription profiling of different cultivars, overview |
1.14.14.81 | Val210 variant, DNA and amino acid sequence determination and analysis, semi-quantitative RT-PCR expression analysis |
1.14.14.81 | when sense constructs are introduced into pink flower varieties that are deficient in the enzyme, transgenic plants show flower color changes from pink to magenta along with changes ihn anthocyanin composition. Some transgenic plants show novel pigmentation patterns, e.g. a star-shaped pattern. When sense constructs are introduced into blue flower petunia varieties, the flower color of the transgenic plants changes from deep blue to pale blue or even pale pink. Pigment composition analysis of transgenic plants suggests that the F3'5'H transgene not only creates or inhibits the biosynthetic pathway to 3',5'-hydroxylated anthocyanins but switches the pathway to 3',5'-hydroxylated or 3'-hydroxylated anthocyanins |
1.14.14.81 | when VmFH1, encoding the flavonoid 3',5'-hydroxylase is expressed in transgenic petunia hybrida under the control of the cauliflower mosaic virus 35S promoter, some transgenic plants show drastic flower color alteration from red to deep red with deep purple sectors |