Transcriptional regulation of the biosynthesis of phytoalexin : a lesson from specialized metabolites in rice
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DOI[10.5511/plantbiotechnology.14.0730a]のデータに遷移します
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- 資料種別
- 記事
- 著者・編者
- Koji MiyamotoTakafumi ShimizuKazunori Okada
- 出版年月日等
- 2014
- 出版年(W3CDTF)
- 2014
- タイトル(掲載誌)
- Plant biotechnology
- 巻号年月日等(掲載誌)
- 31(5)
- 掲載巻
- 31(5)
- ISSN(掲載誌)
- 1347-6114
- ISSN-L(掲載誌)
- 1342-4580
- 本文の言語コード
- eng
- DOI
- 10.5511/plantbiotechnology.14.0730a
- 国立国会図書館永続的識別子
- info:ndljp/pid/11000387
- コレクション(共通)
- コレクション(障害者向け資料:レベル1)
- コレクション(個別)
- 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
- 収集根拠
- インターネット資料収集保存事業(WARP)
- 受理日(W3CDTF)
- 2017-12-08T10:56:38+09:00
- 保存日(W3CDTF)
- 2015-08-15
- 記録形式(IMT)
- application/pdf
- オンライン閲覧公開範囲
- インターネット公開
- 遠隔複写可否(NDL)
- 不可
- 掲載誌(国立国会図書館永続的識別子)
- info:ndljp/pid/11000383
- 連携機関・データベース
- 国立国会図書館 : 国立国会図書館デジタルコレクション
- コレクション(個別)
- 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
- オンライン閲覧公開範囲
- インターネット公開
- 遠隔複写可否(NDL)
- 不可
- 所蔵機関
- 国立国会図書館
- 請求記号
- Z54-J126
- 関連情報(国立国会図書館永続的識別子)
- info:ndljp/pid/11000387
- 連携機関・データベース
- 国立国会図書館 : 国立国会図書館雑誌記事索引
- 書誌ID(NDLBibID)
- 026091858
- 整理区分コード
- 632
- 要約等
- Plants have the ability to produce vast amounts of secondary metabolites, including terpenoids, flavonoids, alkaloids, and their derivatives. These metabolites sometimes affect the growth of other organisms, either positively or negatively. Production of defensive compounds, for example phytoalexins, is a well-known strategy used by plants to defend against and withstand invading pathogens. As phytoalexins serve an obvious function in plant defense, they are known as specialized metabolites, substances with a specific biological role that function during specific circumstances. In rice, 15 diterpenoid-type phytoalexins and one flavonoid-type phytoalexin have been identified. Extensive studies have explored the biochemistry, biosynthesis, and biological functions of phytoalexins in rice, specifically the mechanism by which they function in disease resistance. This review focuses on our current knowledge of the transcriptional and hormonal regulation of the production of phytoalexins in rice.
- DOI
- 10.5511/plantbiotechnology.14.0730a
- オンライン閲覧公開範囲
- インターネット公開
- 連携機関・データベース
- 科学技術振興機構 : J-STAGE
- 要約等
- Plants have the ability to produce vast amounts of secondary metabolites, including terpenoids, flavonoids, alkaloids, and their derivatives. These metabolites sometimes affect the growth of other organisms, either positively or negatively. Production of defensive compounds, for example phytoalexins, is a well-known strategy used by plants to defend against and withstand invading pathogens. As phytoalexins serve an obvious function in plant defense, they are known as specialized metabolites, substances with a specific biological role that function during specific circumstances. In rice, 15 diterpenoid-type phytoalexins and one flavonoid-type phytoalexin have been identified. Extensive studies have explored the biochemistry, biosynthesis, and biological functions of phytoalexins in rice, specifically the mechanism by which they function in disease resistance. This review focuses on our current knowledge of the transcriptional and hormonal regulation of the production of phytoalexins in rice.
- DOI
- 10.5511/plantbiotechnology.14.0730a
- オンライン閲覧公開範囲
- インターネット公開
- 関連情報(URI)
- 異版
- Transcriptional regulation of the biosynthesis of phytoalexin: A lesson from specialized metabolites in rice
- 参照
- The basic leucine zipper transcription factor <scp>OsbZIP83</scp> and the glutaredoxins <scp>OsGRX6</scp> and <scp>OsGRX9</scp> facilitate rice iron utilization under the control of <scp>OsHRZ</scp> ubiquitin ligasesJasmonates Induce Both Defense Responses and Communication in Monocotyledonous and Dicotyledonous PlantsOsMYC2, an essential factor for JA-inductive sakuranetin production in rice, interacts with MYC2-like proteins that enhance its transactivation abilityDeciphering OPDA Signaling Components in the Momilactone-Producing Moss Calohypnum plumiformeJasmonoyl-<scp>l</scp>-isoleucine is required for the production of a flavonoid phytoalexin but not diterpenoid phytoalexins in ultraviolet-irradiated rice leavesDiversity in the genome of<i>Aegilops tauschii</i>, a wild wheat relative, to generate Fe-biofortified and Fe-deficiency-tolerant wheatNovel bacterial control agent tolprocarb enhances systemic acquired resistance in Arabidopsis and rice as a second mode of action
- 参照
- Overexpression of Phosphomimic Mutated OsWRKY53 Leads to Enhanced Blast Resistance in RiceElicitor induced activation of the methylerythritol phosphate pathway toward phytoalexins biosynthesis in riceJasmonate induction of the monoterpene linalool confers resistance to rice bacterial blight and its biosynthesis is regulated by <scp>JAZ</scp> protein in riceCharacterization of an Inducible P450 Hydroxylase Involved in the Rice Diterpene Phytoalexin Biosynthetic PathwayWRKY45-dependent priming of diterpenoid phytoalexin biosynthesis in rice and the role of cytokinin in triggering the reactionOryzalexin F, a diterpene phytoalexin from UV-irradiated rice leavesA rice fungal MAMP‐responsive MAPK cascade regulates metabolic flow to antimicrobial metabolite synthesisJasmonic acid regulates spikelet development in riceCytokinins Act Synergistically with Salicylic Acid to Activate Defense Gene Expression in RiceCYP701A8: A Rice <i>ent</i>-Kaurene Oxidase Paralog Diverted to More Specialized Diterpenoid MetabolismIdentification of a Biosynthetic Gene Cluster in Rice for MomilactonesPhytoalexin production elicited by exogenously applied jasmonic acid in rice leaves (<i>Oryza sativa</i> L.) is under the control of cytokinins and ascorbic acidIdentification of rice <i>Allene Oxide Cyclase</i> mutants and the function of jasmonate for defence against <scp><i>Magnaporthe oryzae</i></scp>Identification of an E-box motif responsible for the expression of jasmonic acid-induced chitinase gene OsChia4a in riceFunctional identification of rice <i>syn</i>‐copalyl diphosphate synthase and its role in initiating biosynthesis of diterpenoid phytoalexin/allelopathic natural productsInvolvement of Jasmonic Acid in Elicitor-Induced Phytoalexin Production in Suspension-Cultured Rice CellsEffects of a bile acid elicitor, cholic acid, on the biosynthesis of diterpenoid phytoalexins in suspension-cultured rice cellsNaringenin 7-O-methyltransferase involved in the biosynthesis of the flavanone phytoalexin sakuranetin from rice (Oryza sativa L.)1-Deoxy-d-xylulose-5-phosphate Synthase, a Limiting Enzyme for Plastidic Isoprenoid Biosynthesis in PlantsRice Contains Two Disparate <i>ent</i>-Copalyl Diphosphate Synthases with Distinct Metabolic FunctionsBiosynthesis of isoprenoids in higher plant chloroplasts proceeds via a mevalonate‐independent pathwayReverse‐genetic approach to verify physiological roles of rice phytoalexins: characterization of a knockdown mutant of <i><scp>OsCPS4</scp></i> phytoalexin biosynthetic gene in ricePhytoalexin Accumulation in the Interaction Between Rice and the Blast FungusAntibacterial diterpenes and their fatty acid conjugates from rice leavesSalicylic acid enhances antifungal resistance to<i>Magnaporthe grisea</i>in rice plantsBiosynthesis, elicitation and roles of monocot terpenoid phytoalexinsNetwork Analysis of the MVA and MEP Pathways for Isoprenoid SynthesisIsolation and characterization of two phytoalexins from rice as momilactones A and BOverexpression of the bZIP transcription factor OsbZIP79 suppresses the production of diterpenoid phytoalexin in rice cellsPhytocassanes A, B, C and D, novel diterpene phytoalexins from rice, Oryza sativa L.OsTGAP1, a bZIP Transcription Factor, Coordinately Regulates the Inductive Production of Diterpenoid Phytoalexins in RiceFunctional moiety for the antifungal activity of phytocassane E, a diterpene phytoalexin from riceThe Cytokinin-Activated Transcription Factor ARR2 Promotes Plant Immunity via TGA3/NPR1-Dependent Salicylic Acid Signaling in ArabidopsisHormone defense networking in rice: tales from a different worldCholic Acid, a Bile Acid Elicitor of Hypersensitive Cell Death, Pathogenesis-Related Protein Synthesis, and Phytoalexin Accumulation in RiceJasmonates: biosynthesis, perception, signal transduction and action in plant stress response, growth and development. An update to the 2007 review in Annals of BotanyUeber das Sakuranin, ein neues Glykosid der Rinde von Prunus Pseudo‐Cerasus Lindl. var. Sieboldi MaximCYP99A3: functional identification of a diterpene oxidase from the momilactone biosynthetic gene cluster in riceWRKY76 is a rice transcriptional repressor playing opposite roles in blast disease resistance and cold stress toleranceIsolation of jasmonate-induced sesquiterpene synthase of rice: Product of which has an antifungal activity against Magnaporthe oryzaeMolecular cloning and characterization of a cDNA encoding <i>ent</i>‐cassa‐12,15‐diene synthase, a putative diterpenoid phytoalexin biosynthetic enzyme, from suspension‐cultured rice cells treated with a chitin elicitorPhytoalexins in defense against pathogensRice seedlings release momilactone B into the environmentIdentification of Target Genes of the bZIP Transcription Factor OsTGAP1, Whose Overexpression Causes Elicitor-Induced Hyperaccumulation of Diterpenoid Phytoalexins in Rice CellsIdentification of <i>Syn</i>-Pimara-7,15-Diene Synthase Reveals Functional Clustering of Terpene Synthases Involved in Rice Phytoalexin/Allelochemical BiosynthesisA Methyltransferase for Synthesis of the Flavanone Phytoalexin Sakuranetin in Rice LeavesTwo LysM receptor molecules, CEBiP and OsCERK1, cooperatively regulate chitin elicitor signaling in riceGenetic evidence for natural product‐mediated plant–plant allelopathy in rice (<i>Oryza sativa</i>)Multiple phytohormones and phytoalexins are involved in disease resistance to<i>Magnaporthe oryzae</i>invaded from roots in riceTranscriptomic analysis of UV-treated rice leaves reveals UV-induced phytoalexin biosynthetic pathways and their regulatory networks in riceSynthesis and Absolute Configuration of (−)-Phytocassane D, a Diterpene Phytoalexin Isolated from the Rice Plant,Oryza sativaCharacterization of CYP76M5–8 Indicates Metabolic Plasticity within a Plant Biosynthetic Gene ClusterRice<scp>O</scp>s<i><scp>PAD</scp>4</i>functions differently from<scp>A</scp>rabidopsis<scp>A</scp>t<i><scp>PAD</scp>4</i>in host‐pathogen interactionsStemar‐13‐ene synthase, a diterpene cyclase involved in the biosynthesis of the phytoalexin oryzalexin S in riceGene clustering in plant specialized metabolismSilencing COI1 in Rice Increases Susceptibility to Chewing Insects and Impairs Inducible DefenseSakuranetin, a flavanone phytoalexin from ultraviolet-irradiated rice leavesParsing a multifunctional biosynthetic gene cluster from rice: Biochemical characterization of CYP71Z6 & 7Cytokinins Mediate Resistance against<i>Pseudomonas syringae</i>in Tobacco through Increased Antimicrobial Phytoalexin Synthesis Independent of Salicylic Acid SignalingUncovering the complex metabolic network underlying diterpenoid phytoalexin biosynthesis in rice and other cereal crop plantsBiological functions of <i>ent</i>‐ and <i>syn</i>‐copalyl diphosphate synthases in rice: key enzymes for the branch point of gibberellin and phytoalexin biosynthesisFrom hormones to secondary metabolism: the emergence of metabolic gene clusters in plantsCYP76M7 Is an <i>ent</i>-Cassadiene C11α-Hydroxylase Defining a Second Multifunctional Diterpenoid Biosynthetic Gene Cluster in RiceAn Overview of Gibberellin Metabolism Enzyme Genes and Their Related Mutants in RicePurification and Identification of Naringenin 7-O-Methyltransferase, a Key Enzyme in Biosynthesis of Flavonoid Phytoalexin Sakuranetin in RiceChemical activation of host defence mechanisms as a basis for crop protectionオリザレキシンD (3,7-ジヒドロキシ-(+)-サンダラコピマラジエン), いもち病罹病イネ葉から単離した新規フィトアレキシンNovel C<sub>19</sub>-Kaurane Type of Diterpene (Oryzalide A), a New Antimicrobial Compound Isolated from Healthy Leaves of a Bacterial Leaf Blight-resistant Cultivar of Rice PlantNovel phytoalexins (oryzalexins A, B and C) isolated from rice blast leaves infected with Pyricularia oryzae .1. Isolation, characterization and biological activities of oryzalexins3-Hydroxy-7-oxo-sandaracopimaradiene (oryzalexin A), a new phytoalexin isolated from rice blast leaves.Absolute configuration of oryzalexin A and structures of its related phytoalexins isolated from rice blast leaves infected with Pyricularia oryzae.Structures of oryzalides A and B, and oryzalic acid A, a group of novel antimictobial diterpenes, isolated from healthy leaves of a bacterial leaf blight-resistant cultivar of rice plant.Diterpene cyclases responsible or the biosynthesis of phytoalexins, momilactones A, B, and oryzalexins A-F in riceIdentification of a novel casbene-type diterpene phytoalexin, ent-10-oxodepressin, from rice leavesOsJAR1 Contributes Mainly to Biosynthesis of the Stress-Induced Jasmonoyl-Isoleucine Involved in Defense Responses in RiceCharacterization of a rice gene family encoding type-A diterpene cyclaseイネcaffeic acid 3-O-methyltransferaseのクローニングおよび機能解析Effects of cytokinin on production of diterpenoid phytoalexins in riceNovel phytoalexins (oryzalexins A, B and C) isolated from rice blast leaves infected with Pyricularia oryzae. Part II: Structural studies of oryzalexins.Role of Jasmonic Acid as a Signaling Molecule in Copper Chloride-elicited Rice Phytoalexin Production.Structures of Oryzalic Acid B and Three Related Compounds, a Group of Novel Antibacterial Diterpenes, Isolated from Leaves of a Bacterial Leaf Blight-Resistant Cultivar of Rice.Methionine-induced Phytoalexin Production in Rice Leaves.Oryzalexin S, a Novel Stemarane-type Diterpene Rice Phytoalexin.Biosynthesis of Rice Phytoalexin: Enzymatic Conversion of 3β-Hydroxy-9β-pimara-7,15-dien-19,6β-olide to Momilactone AThe biosynthesis of isoprenoids and the mechanism regulating it in plantsRecent Advances Regarding Diterpene Cyclase Genes in Higher Plants and FungiDiterpene phytoalexins are biosynthesized in and exuded from roots of rice seedlings
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- 国立情報学研究所 : CiNii Research
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- 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 Articles学術機関リポジトリデータベースCrossrefCrossrefCrossrefCrossrefCrossrefCrossrefCrossref
- 書誌ID(NDLBibID)
- 02609185811000387
- NII論文ID
- 130004704193