Incorporation of Farnesyl Pyrophosphate Derivertives into Abscisic Acid and Its Biosynthetic Intermediates in Cercospora cruenta

スポンサーリンク

概要

• 論文の詳細を見る

• To investigate the transformation from (2E, 6E)-farnesyl pyrophosphate to (2Z, 4E)-γ-ionylideneethanol in the abscisic acid-producing fungi, Cercospora cruenta, plausible [2-^<14>C]-C_<15> intermediates were prepared and fed. Substrates such as (2E, 6E)-farnesyl pyrophosphate, (2z, 4E)-γ-ionylideneethanol and its pyrophosphate were incorporated into ABA and its known biosynthetic precursors. It is suggested that (2E, 6E)-farnesyl pyrophosphate is converted to (2Z, 4E)-γ-ionylideneethanol in four consecutive steps: dehydrogenation, isomerization, cyclization and hydrolysis.

• 社団法人日本農芸化学会の論文
• 1997-05-23

著者

• Oritani Takayuki

  Department Of Agricultural Chemistry Faculty Of Agriculture Tohoku University

• Yamamoto Hirotaka

  Department Of Applied Biological Chemistry Faculty Of Agriculture Niigata University

• Yamamoto Hirotaka

  Department Of Applied Biological Chemistry Faculty Of Agriculture Tohoku University:(present Address

関連論文

• Synthesis of Squamostanal-A
• Synthesis of Two Possible Diastereoisomers of the Epoxy Lactone Proposed for Epoxyrollin A
• 4 Pro-R Hydrogen of NADPH was Abstracted for Enzymatic Hydride Transfer by N-Ethylmaleimide Reductase of Yarrowia lipolytica
• Synthesis of a Tricyclo[4.3.0.0^]-nonane Ring System from (-)-Carvone(Organic Chemistry)
• Synthesis of (+)-Methyl Phaseate and Its Isomer from (-)-β-Pinene(Organic Chemistry)
• Total Synthesis of (+)-Methyl Phaseate from (-)-β-Pinene(Organic Chemistry)
• Total Synthesis of (±)-Drummondone A(Organic Chemistry)
• Alternative Synthesis of (±)-Trisporol B via (±)-6-Hydroxymethyl-2,6-dimethyl-2-cyclohexen-1-one(Organic Chemistry)
• Synthesis and Biological Activities of (±)-Deoxy-abscisic Acid Isomers
• Total Synthesis of (±)-Methyl Phaseates(Organic Chemistry)
• Synthesis of Chiral Aspyrone, A Multi-functional Dihydropyranone Antibiotic
• Total Synthesis of Natural (+)-Phomopsolide B, an Antifeedant against Elm Bark Beetle
• Syntheses of Chiral 4'-Hydroxy and 1',4'-Dihydroxy-γ-ionylideneacetic Acids, Fungal Biosynthetic Intermediates of Abscisic Acid(Organic Chemistry)
• Enzymatic Preparation of Chiral 4-Hydroxy-2,2-dimethyl-1-cyclohexanone as a Chiral Building Block(Organic Chemistry)
• Syntheses and Biological Activities of (±)-Streptovitacin A and E-73(Organic Chemistry)
• Synthesis of (±)-4'-Hydroxy-γ-ionylideneacetic Acids, Fungal Biosynthetic Intermediates of Abscisic Acid(Organic Chemistry)
• Synthesis of (±)-(2Z,4E)-trans-1',4'-Dihydroxy-γ-ionylideneacetic Acid, a Fungal Biosynthetic Intermediate of Abscisic Acid(Organic Chemistry)
• Synthesis of Chiral 3'-Hydroxy-γ-ionylideneacetic Acids (Organic Chemistry)
• Synthesis and Biological Activities of Demethylcycloheximides(Organic Chemistry)
• Preparation of Chiral trans-2,4-Dimethyl-1-cyclohexanones, the Key Intermediates in Cycloheximide Synthesis, Using Microbial Resolution(Organic Chemistry)
• 2-Fluoro and 2-Methoxycarbonyl Epoxy-β-ionylideneacetic Acids as Abscisic Acid Analogs
• Pectins in Extracellular Polysaccharides from a Cell-Suspension Culture of Mentha
• Synthesis of (-)-Muricatacin
• Synthesis of Ambrein(Organic Chemistry)
• Total Synthesis of (-)-Decarestrictine J
• Synthesis and Antimicrobial Activity of 2'-Deoxypuromycin(Organic Chemistry)
• Reinvestigation of Phenolic Ferrier Reaction : Selective Synthesis of Aryl O-Δ^2-Glycosides
• Biosynthesis of Abscisic Acid in the Fungus Cercospora cruenta : Stimulation of Biosynthesis by Water Stress and Isolation of a Transgenic Mutant with Reduced Biosynthetic Capacity : ENVIRONMENTAL AND STRESS RESPONSES
• Microbial Hydroxylation of (±)- and(-)-(2Z, 4E)-5-(1', 2'-Epoxy-2', 6', 6'-trimethylcyclohexyl)-3-methyl-2,4-pentadienoic acid into (±)-and (-)-Xanthoxin Acid by Cunninghamella echinulata
• Synthesis of Chiral Methyl Cucurbate and Its Analogs(Organic Chemistry)
• Synthesis and Biological Activities of Griseofulvin Analogs(Organic Chemistry)
• Aldehyde Oxidase in Wild Type and aba1 Mutant Leaves of Nicotiana plumbaginifolia
• Conformation and Metabolism of (+)-(2Z,4E)-trans-1´,4´-Dihydroxy-γ-ionylideneacetic Acid, a Biosynthetic Intermediate of (+)-Abscisic Acid in Cercospora cruenta(Organic Chemistry)
• Isolation and Structure of 4'-Hydroxy-γ-ionylideneacetic Acids from Cercospora cruenta, a Fungus Producting (+)-Abscisic Acid(Organic Chemistry)
• Conformational Analysis of Abscisic Acid Analogs Produced by Cercospora cruenta
• A Novel Taxane Diterpenoid from Japanese Yew, Taxus cuspidata
• Isomeric Ratio and Level of Xanthoxin in Tomato Plants Measured by a New Analytical Method
• Incorporation of Farnesyl Pyrophosphate Derivertives into Abscisic Acid and Its Biosynthetic Intermediates in Cercospora cruenta
• Synthesis of (±)-4-Isocymobarbatol by Brominative Cyclization
• Facile Preparation of Chiral Abscisic Acid
• Enzymic Resolution of (±)-axial-Alcohols via Asymmetric Hydrolysis of Corresponding Chloroacetates by Microorganisms
• Extension of Measurable Region of Object Vibration Phasor in Phase-Modulated TV Holographic Interferometry: Experiment
• The Metabolism of Analogs of Abscisic Acid in Cercospora cruenta
• Metabolism of (2Z, 4E)-γ-Ionylideneethanol and (2Z, 4E)-γ-Ionylideneacetic Acid in Cercospora cruenta
• Isolation of (2Z, 4E)-γ-Ionylideneethanol from Cercospora cruenta, a Fungus Producing (+)-Abscisic Acid
• The Metabolism of (2Z, 4Z)-α-Ionylideneacetic Acid in Cercospora cruenta, a Fungus Producing (+)-Abscisic Acid
• Synthesis and Biological Activity of Methyl 3-Demethyl-Abscisate and Its Related Analogs

もっと見る 閉じる

スポンサーリンク