Transcriptional regulators of flavonoid biosynthesis and their application to flower color modification in Japanese gentians
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DOI[10.5511/plantbiotechnology.14.0731a]to the data of the same series
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- Material Type
- 記事
- Author/Editor
- Takashi NakatsukaNobuhiro SasakiMasahiro Nishihara
- Publication, Distribution, etc.
- Publication Date
- 2014
- Publication Date (W3CDTF)
- 2014
- Periodical title
- Plant biotechnology
- No. or year of volume/issue
- 31(5)
- Volume
- 31(5)
- ISSN (Periodical Title)
- 1347-6114
- ISSN-L (Periodical Title)
- 1342-4580
- Text Language Code
- eng
- DOI
- 10.5511/plantbiotechnology.14.0731a
- Persistent ID (NDL)
- info:ndljp/pid/11000388
- Collection
- Collection (Materials For Handicapped People:1)
- Collection (particular)
- 国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
- Acquisition Basis
- インターネット資料収集保存事業(WARP)
- Date Accepted (W3CDTF)
- 2017-12-08T10:56:38+09:00
- Date Captured (W3CDTF)
- 2015-08-15
- Format (IMT)
- application/pdf
- Access Restrictions
- インターネット公開
- Availability of remote photoduplication service
- 不可
- Periodical Title (URI)
- Periodical Title (Persistent ID (NDL))
- info:ndljp/pid/11000383
- Data Provider (Database)
- 国立国会図書館 : 国立国会図書館デジタルコレクション
- Collection (particular)
- 国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
- Access Restrictions
- インターネット公開
- Availability of remote photoduplication service
- 不可
- Holding library
- 国立国会図書館
- Call No.
- Z54-J126
- Related Material (URI)
- Related Material (Persistent ID (NDL))
- info:ndljp/pid/11000388
- Data Provider (Database)
- 国立国会図書館 : 国立国会図書館雑誌記事索引
- Bibliographic ID (NDL)
- 026091886
- Bibliographic Record Category (NDL)
- 632
- Summary, etc.
- Japanese cultivated gentians (<i>Gentiana triflora</i>, <i>G. scabra</i> and their hybrids), some of the most important ornamental flowers in Japan, have vivid blue flowers that accumulate polyacylated anthocyanins such as gentiodelphin. To breed attractive flower colors in Japanese gentians, our research group has been studying the molecular mechanisms that control flower pigmentation. Flavonoids, including anthocyanins, are widely distributed in the plant kingdom and are found in almost all plant organs. Along with longstanding genetic and molecular biological analyses of flavonoid biosynthesis, recent studies have revealed that transcription activators and repressors are involved in sophisticated control of temporal and spatial flavonoid accumulation in various plant organs. In this review, we summarize recent research on the transcriptional regulation of flavonoid biosynthesis in flowers, with a special focus on our findings using Japanese gentians. We also introduce and discuss the potential application of these transcription factor genes as novel tools to engineer flower color intensity and patterns in floricultural plants.
- DOI
- 10.5511/plantbiotechnology.14.0731a
- Access Restrictions
- インターネット公開
- Data Provider (Database)
- 科学技術振興機構 : J-STAGE
- Summary, etc.
- Japanese cultivated gentians (<i>Gentiana triflora</i>, <i>G. scabra</i> and their hybrids), some of the most important ornamental flowers in Japan, have vivid blue flowers that accumulate polyacylated anthocyanins such as gentiodelphin. To breed attractive flower colors in Japanese gentians, our research group has been studying the molecular mechanisms that control flower pigmentation. Flavonoids, including anthocyanins, are widely distributed in the plant kingdom and are found in almost all plant organs. Along with longstanding genetic and molecular biological analyses of flavonoid biosynthesis, recent studies have revealed that transcription activators and repressors are involved in sophisticated control of temporal and spatial flavonoid accumulation in various plant organs. In this review, we summarize recent research on the transcriptional regulation of flavonoid biosynthesis in flowers, with a special focus on our findings using Japanese gentians. We also introduce and discuss the potential application of these transcription factor genes as novel tools to engineer flower color intensity and patterns in floricultural plants.
- DOI
- 10.5511/plantbiotechnology.14.0731a
- Access Restrictions
- インターネット公開
- Related Material (URI)
- Is Referenced By
- Floral organ- and temperature-dependent regulation of anthocyanin biosynthesis in Cymbidium hybrid flowersMolecular characterization of an anthocyanin-related glutathione S-transferase gene in Japanese gentian with the CRISPR/Cas9 systemAnthocyanin regulatory and structural genes associated with violet flower color of Matthiola incana
- References
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(Brassicaceae)Regulation of the anthocyanin biosynthetic pathway by the TTG1/bHLH/Myb transcriptional complex in Arabidopsis seedlingsMolecular and Biochemical Characterization of Three Anthocyanin Synthetic Enzymes from Gentiana triflora<i><scp>B</scp>rassica napus </i><scp><i>TT16</i></scp> homologs with different genomic origins and expression levels encode proteins that regulate a broad range of endothelium‐associated genes at the transcriptional level<i>PAP1</i> transcription factor enhances production of phenylpropanoid and terpenoid scent compounds in rose flowersCo‐expression of <i>Arabidopsis</i> transcription factor, <i>At<scp>MYB</scp>12</i>, and soybean isoflavone synthase, <i>Gm<scp>IFS</scp>1</i>, genes in tobacco leads to enhanced biosynthesis of isoflavones and flavonols resulting in osteoprotective activityThe Jasmonate-ZIM-Domain Proteins Interact with the WD-Repeat/bHLH/MYB Complexes to Regulate Jasmonate-Mediated Anthocyanin Accumulation and Trichome Initiation in<i>Arabidopsis thaliana</i>Natural Pigments: Carotenoids, Anthocyanins, and Betalains — Characteristics, Biosynthesis, Processing, and StabilityFlavones and flavone synthasesPIF3 regulates anthocyanin biosynthesis in an HY5‐dependent manner with both factors directly binding anthocyanin biosynthetic gene promoters in ArabidopsisMYB transcription factors in ArabidopsisGenetic engineering of flavonoid pigments to modify flower color in floricultural plants<i>Arabidopsis</i> and <i>Nicotiana</i> Anthocyanin Production Activated by Maize Regulators <i>R</i> and <i>C1</i>Cloning and characterization of the UDP-glucose:anthocyanin 5-O-glucosyltransferase gene from blue-flowered gentianPhytochemical re-investigation of<i>Gentiana utriculosa</i>Transformation of maize with the <i>p1</i> transcription factor directs production of silk maysin, a corn earworm resistance factor, in concordance with a hierarchy of floral organ pigmentationA New Flavone <i>C</i>-Glycoside and Antiplatelet and Vasorelaxing Flavones from <i>Gentiana arisanensis</i><b>cDNA cloning, gene expression and subcellular localization of anthocyanin 5‐aromatic acyltransferase from</b><i><b>Gentiana triflora</b></i>A Novel Glucosylation Reaction on Anthocyanins Catalyzed by Acyl-Glucose–Dependent Glucosyltransferase in the Petals of Carnation and DelphiniumMetabolic engineering of flavonoids in plants and microorganismsCRES-T, An Effective Gene Silencing System Utilizing Chimeric RepressorsHY5 regulates anthocyanin biosynthesis by inducing the transcriptional activation of the MYB75/PAP1 transcription factor in <i>Arabidopsis</i>Structure of gentiodelphin, an acylated anthocyanin isolated from , that is stable in dilute aqueous solutionRecent advances in the transcriptional regulation of the flavonoid biosynthetic pathwayIsolation of cDNAs for R2R3-MYB, bHLH and WDR Transcriptional Regulators and Identification of c and ca Mutations Conferring White Flowers in the Japanese Morning GloryThe strawberry <i>FaMYB1</i> transcription factor suppresses anthocyanin and flavonol accumulation in transgenic tobaccoA Conserved Network of Transcriptional Activators and Repressors Regulates Anthocyanin Pigmentation in EudicotsAn R2R3 MYB transcription factor determines red petal colour in an Actinidia (kiwifruit) hybrid populationFlavonoids: biosynthesis, biological functions, and biotechnological applicationsFlavonoids and their glycosides, including anthocyaninsSeven acylated anthocyanins in blue flowers of GentianaTranscriptome analysis of carnation (Dianthus caryophyllus L.) based on next-generation sequencing technology<b>A bHLH transcription factor mediates organ, region and flower type specific signals on dihydroflavonol‐4‐reductase (</b><i><b>dfr</b></i><b>) gene expression in the inflorescence of</b><i><b>Gerbera hybrida</b></i><b>(Asteraceae)</b>Co-pigmentation and flavonoid glycosyltransferases in blue Veronica persica flowersRecent advances on the regulation of anthocyanin synthesis in reproductive organsCharacterization of Flavonol Synthase and Leucoanthocyanidin Dioxygenase Genes in Arabidopsis (Further Evidence for Differential Regulation of "Early" and "Late" Genes)Altered regulation of tomato and tobacco pigmentation genes caused by the <i>delila</i> gene of <i>Antirrhinum</i>A Small Family of <i>MYB</i> -Regulatory Genes Controls Floral Pigmentation Intensity and Patterning in the Genus <i>Antirrhinum</i>Three acylated cyanidin glucosides in pink flowers of gentianaTranscriptional control of flavonoid biosynthesis: a complex network of conserved regulators involved in multiple aspects of differentiation in ArabidopsisThe myb-homologous P gene controls phlobaphene pigmentation in maize floral organs by directly activating a flavonoid biosynthetic gene subsetDivergent Selection Drives Genetic Differentiation in an R2R3-MYB Transcription Factor That Contributes to Incipient Speciation in Mimulus aurantiacusA R2R3-MYB transcription factor, GmMYB12B2, affects the expression levels of flavonoid biosynthesis genes encoding key enzymes in transgenic Arabidopsis plantsGlobal transcriptome analysis and identification of a CONSTANS-like gene family in the orchid Erycina pusillaBlue flower color development by anthocyanins: from chemical structure to cell physiologyActivation of Anthocyanin Biosynthesis in<i>Gerbera hybrida</i>(Asteraceae) Suggests Conserved Protein-Protein and Protein-Promoter Interactions between the Anciently Diverged Monocots and EudicotsBiosynthesis of plant pigments: anthocyanins, betalains and carotenoidsThe <i>TRANSPARENT TESTA16</i> Locus Encodes the ARABIDOPSIS BSISTER MADS Domain Protein and Is Required for Proper Development and Pigmentation of the Seed CoatAnthocyanin 5‐Aromatic Acyltransferase from <i>Gentiana Triflora</i>Differential regulation of closely related R2R3‐MYB transcription factors controls flavonol accumulation in different parts of the <i>Arabidopsis thaliana</i> seedlingMembers of an R2R3‐MYB transcription factor family in <i>Petunia</i> are developmentally and environmentally regulated to control complex floral and vegetative pigmentation patterningIdentification and Characterization of R2R3-MYB and bHLH Transcription Factors Regulating Anthocyanin Biosynthesis in Gentian FlowersContribution of each caffeoyl residue of the pigment molecule of gentiodelphin to blue color developmentSmall RNA and transcriptome deep sequencing proffers insight into floral gene regulation in Rosa cultivarsRevealing impaired pathways in the <i>an11</i> mutant by high‐throughput characterization of <i>Petunia axillaris</i> and <i>Petunia inflata</i> transcriptomesRegulation of flavonoid biosynthesis involves an unexpected complex transcriptional regulation of <i><scp>TT</scp>8</i> expression, in <scp>A</scp>rabidopsisDevelopment of DNA markers that discriminate between white- and blue-flowers in Japanese gentian plantsBiochemical and Molecular Analysis of Pink Tomatoes: Deregulated Expression of the Gene Encoding Transcription Factor SlMYB12 Leads to Pink Tomato Fruit ColorRole of a positive regulator of root hair development, <i>CAPRICE</i> ,in <i>Arabidopsis</i> root epidermal cell differentiationThe molecular basis for venation patterning of pigmentation and its effect on pollinator attraction in flowers of <i>Antirrhinum</i>The Grapevine R2R3-MYB Transcription Factor VvMYBF1 Regulates Flavonol Synthesis in Developing Grape BerriesThe Science of FlavonoidsActivation Tagging Identifies a Conserved MYB Regulator of Phenylpropanoid BiosynthesisPeace, a MYB-like transcription factor, regulates petal pigmentation in flowering peach ‘Genpei’ bearing variegated and fully pigmented flowersTemporal expression of flavonoid biosynthesis-related genes regulates flower pigmentation in gentian plantsMetabolic engineering of proanthocyanidins through co‐expression of anthocyanidin reductase and the PAP1 MYB transcription factorThe maize <i>Lc</i> regulatory gene up‐regulates the flavonoid biosynthetic pathway of <i>Petunia</i>Biosynthesis of betalains: yellow and violet plant pigmentsThe Arabidopsis Transcription Factor MYB12 Is a Flavonol-Specific Regulator of Phenylpropanoid BiosynthesisRegulatory Genes Controlling Anthocyanin Pigmentation Are Functionally Conserved among Plant Species and Have Distinct Sets of Target Genes.THE GENETICS AND BIOCHEMISTRY OF FLORAL PIGMENTSFlavonoids: a colorful model for the regulation and evolution of biochemical pathwaysAtMYBL2, a protein with a single MYB domain, acts as a negative regulator of anthocyanin biosynthesis in ArabidopsisProduction of picotee-type flowers in Japanese gentian by CRES-Tトレニア(<i>Torenia fournieri</i> Lind. ex Fourn.)の新規変異体「雀斑(そばかす)」は <i>R2R3-MYB</i> 遺伝子への DNA 型トランスポゾンの挿入によって花が斑入りになるThe new FioreDB database provides comprehensive information on plant transcription factors and phenotypes induced by CRES-T in ornamental and model plantsAward review: Flower color modification by engineering of the flavonoid biosynthetic pathway: practical perspectives
- Data Provider (Database)
- 国立情報学研究所 : CiNii Research
- Original Data Provider (Database)
- Japan Link Center雑誌記事索引データベース雑誌記事索引データベースCrossrefCiNii ArticlesCiNii Articles科学研究費助成事業データベースCrossrefCrossrefCrossref
- Bibliographic ID (NDL)
- 02609188611000388
- NAID
- 13000472115740020355847