Metabolic Engineering to Modify Flower Color
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概要
- 論文の詳細を見る
Thanks to the rapid progress in molecular biology of flavonoid biosynthesis and plant transformation, it has become feasible to modify the pathway and flower color through genetic engineering. One of the advantages of molecular breeding is that flower color can be specifically modified without changing the other characteristics of the targeted variety. Novel flower color varieties such as brickred petunias and violet carnations have been successfully made by expression of heterologous flavonoid genes. Flavonoid metabolic engineering has and will give new perspectives in plant molecular biology besides its industrial application.
- 日本植物生理学会の論文
著者
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Tanaka Y
Suntory Ltd. Osaka Jpn
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Tanaka Y
National Inst. Agrobiological Resources Tsukuba Jpn
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TANAKA Yoshikazu
Institute for Geothermal Sciences Graduate School of Science, Kyoto University
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KUSUMI Takaaki
Institute for Advanced Technology, Suntory, Ltd.
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TSUDA Shinzo
Institute for Advanced Research, Suntory, Ltd.
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Tanaka Y
National Inst. Agrobiological Resources Ibaragi Jpn
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Kusumi Takaaki
Suntory Limited Research Center Institute For Plant Science
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Kusumi Takaaki
R&d Department Suntory Flowers Ltd.
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Tsuda Shinzo
Inst. For Plant Sci. Suntory Holdings Ltd.
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Tanaka Yoshikazu
Central Res. Laboratories Hokko Chemical Ind. Co.
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Kusumi T
Institute For Fundamental Research Suntory Ltd
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Tanaka Yoshikazu
Central Research Laboratories Hokko Chemical Industry Co.
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Tanaka Yoshikazu
Institute For Advanced Core Technology Suntory Limited
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Tanaka Yoshikazu
Institute For Advanced Core Technology
関連論文
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- IDENTIFICATION OF THE MAGENTA MUTATIONS FOR FLOWER PIGMENTATION IN THE JAPANESE AND COMMON MORNING GLORIES
- Differential Expression of Two Cytochrome P450s Involved in the Biosynthesis of Flavones and Anthocyanins in Chemo-Varietal Forms of Perilla frutescens
- cDNA Cloning and Gene Expression of Anthocyanidin Synthase from Torenia fournieri
- RNAi suppression of the anthocyanidin synthase gene in Torenia hybrida yields white flowers with higher frequency and better stability than antisense and sense suppression
- Molecular characterization of the flavonoid biosynthesis of Verbena hybrida and the functional analysis of verbena and Clitoria ternatea F3'5'H genes in transgenic verbena
- Flower color modification of Petunia hybrida commercial varieties by metabolic engineering
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