Structure and Absolute Configuration of Valeranone
スポンサーリンク
概要
- 論文の詳細を見る
The structure and absolute configuration of valeranone have been established as V from the following evidence. Valeranone (V) was converted into IX via VIII (R=O, X=H), and β-eudesmol (X ; R=CH_2) into XVI via XV (X=H). VIII (R=O, X=H) was shown to be a diastereomer of XV (X=H), and IX the enantiomer of XVI, thus establishing the absolute configuration of the C-10 methyl as α and that of the C-7 isopropyl group as β. The absolute configuration of the C-5 methyl was confirmed to be α by observing a negative Cotton effect of XXI, the difference of the nuclear magnetic resonance signals of the C-5 methyl of V and XXIV, and the conversion of XXII into XXIII. The absolute stereochemistry was also supported by the nuclear magnetic resonance spectra of XXVI (R=H and Ac) which revealed that the C-4 hydroxyl of R-configuration was located in a 1,3-diaxial relation to the C-10 methyl group.
- 1965-12-25
著者
-
ヒキノ ヒロシ
Pharmaceutical Institute Faculty Of Medicine Tohoku University
-
目黒 寛司
浜理薬品工業株式会社
-
曳野 靖子
東北大・薬
-
目黒 寛司
Pharmaceutical Research Division, Pharmaceutical Research Laboratories II, Takeda Chemical Industrie
-
曳野 靖子
Pharmacentical Institute, Tohoku University
-
竹本 常松
Pharmaceutical Faculty Tokushima Bunri University
-
竹下 保義
東北大学医学部薬学科
-
竹下 保義
Pharmaceutical Institute, School of Medicine, Tohoku University
関連論文
- Stimulatory Effect of Insect-Metamorphosing Steroids from Ferns on Protein Synthesis in Mouse Liver
- Stimulatory Effect of Insect-Metamorphosing Steroids from Achyranthes and Cyathula on Protein Synthesis in Mouse Liver
- Stimulation of Protein Synthesis in Mouse Liver by Insect-Moulting Steroids
- Structure and Absolute Configuration of Cyperolone.
- Structure of Cyperolone
- Shidasterone, an Insect Metamorphosing Substance from Blechnum niponicum : Structure
- Structure and Absolute Configuration of Kobusone and Isokobusone
- Structure and Absolute Configuration of Sugetriol
- Biochemical Syntheses. II. Microbial Transformation of Cyperotundone to Sugeonol and Isopatchoul-4-en-3-on-8α-ol
- Structure and Absolute Configuration of Sugeonol
- Synthesis of Cyperene, Cyperotundone, and Patchoulenone
- Structure and Absolute Configuration of Cyperol and Isocyperol.
- Structure of Sugetriol
- Structure and Absolute Configuration of Cyperotundone
- Structure of Cyperotundone
- Revised Structure of Lyoniatoxin, Toxin of Lyonia ovalifolia var. elliptica
- Stereostructure of Rhodojapoin V and VII, Toxins of Rhododendron japonicum
- Stereostructure of Grayanotoxin XII and XIII, Toxins of Leucothoe grayana
- Stereostructure of Picrasin G, Simaroubolide of Picrasma quassioides
- Stereostructure of Picrasin C, Simaroubolide of Picrasma quassioides
- Stereostructure of Picrasin F, Simaroubolide of Picrasma quassioides
- Stereostructure of Grayanotoxin VIII, IX, X, and XI. Toxins of Leucothoe grayana
- Stereostructure of Picrasin D and E, Simaroubolides of Picrasma quassioides
- Stereostructure of Rhodojaponin IV, Toxin of Rhododendron japonicum, and of Grayanotoxin V, VI, and VII, Toxins of Leucothoe grayana
- Stereostructure of Picrasin B, Simaroubolide of Picrasmaquassioides
- Stereostructure of Rhodojaponin I, II, and III, Toxins of Rhododendron japonicum, and of Asebotoxin III, Toxin of Pieris japonica
- Isolation of Phytoecdysones from Japanese Ferns. I
- Stereostructure of Lyoniatoxin, Toxin of Lyonia ovalifolia var. elliptica
- Isolation of Insect-Moulting Substances from Blechnum amabile and Blechnum niponicum
- Structure and Absolute Configuration of Faurinone
- Isolation of Insect Moulting Substances from Osmunda japonica and Osmunda asiatica
- Isolation of Insect Moulting Substances from Pteridium aquilinum var. latiusculum
- Isolation of Insect Moulting Substances from Pleopeltis thunbergiana, Neocheiropteris ensata, and Lemmaphyllum microphyllum
- Isolation of Insect Moulting Substances from Matteuccia struthiopteris, Lastrea thelypteris, and Onoclea sensibilis
- Absorption, Distribution, Metabolism, and Excretion of Insect-Metamorphosing Hormone Ecdysterone in Mice. II
- Effects of a Vertebrate Hypocholesterolemic Agent on Sterol Metabolism and Development of Bombyx mori
- Protective Action of Desoxypodophyllotoxin on D-Galactosamine-induced Liver Lesion in Rats
- Stereostructure of Asebotoxin VI, VIII, and IX, Toxins of Pieris japonica
- Stereoselective Epoxidation of Germacradienes by Enzymes and Selective Transannular Cyclization of Germacradienes and Their Epoxides
- Stereoselectivity in Microbiological Transformation of Stereoisomers of α-Cyperone and Dihydro-α-cyperone with Colletotrichum phomoides
- Carbon-13 Nuclear Magnetic Resonance Spectra of Phytoecdysones
- Structure of Dehydrocurdione, a Sesquiterpenoid of Curcuma zedoaria
- Structure of Curcumadiol, a Sesquiterpenoid of Curcuma zedoaria
- Structure of Furanodiene and Isofuranogermacrene (Curzerene)
- Stereostructure of Asebotoxin VII, Toxin of Pieris japonica
- Stereostructure of Asebotoxin IV and V, Toxins of Pieris japonica
- Stereochemistry of Grayanotoxins, Asebotoxins, and Rhodojaponins, Toxins of Ericaceae
- Screening of Formosan Ferns for Phytoecdysones. I
- Screening of Japanese Ferns for Phytoecdysones. I
- Structure of Hinesol
- Studies on the Constituents of Atractylodes. VIII. : The Structure of Atractylodin. (3). : Synthesis.
- Studies on the Constituents of Atractylodes. VII. : The Structure of Atractylodin. (2). : The Chromophores.
- Studies on the Constituents of Atractylodes. VI. : The Structure of Atractylodin. (1). : The Skeleton.
- 23.茅蒼朮の精油成分Hinesolの構造
- Studies on the Constituents of Atractylodes. IV. The Structure of Hinesol. (1). The Skeleton
- 22.東北大個求の精油成分atractylinの構造
- Studies on the Constituents of Atractylodes. III. Separation of Atractylol into Eudesmol and Hinesol.
- Structure of Pteroside A and C, Glycosides of Pteridium aquilinum var. latiusculum
- Structure of Pteroside Z and D, Glycosides of Pteridium aquilinum var. latiusculum
- Structure of Pteroside B, Glycoside of Pteridium aquilinum var. latiusculum
- Antiinflammatory Principles of Atractylodes Rhizomes
- Stereostructure of Picrasin A, Simaroubolide of Picrasma quassioides
- Fusidic Acid, a Steroidal Antibiotic from Isaria kogane
- Antiinflammatory Principle of Ephedra Herbs
- Structure of β-Kessyl Ketone and β-Kessyl Alcochol
- Structure of Curdione
- Structure of Curdione
- Structure of Zederone
- Hypotensive Principles of Diospyros kaki Leaves
- Structure and Absolute Configuration of Campherenone and Campherenol, Sesquiterpenoids of Cinnamomum camphora
- Structure and Absolute Configuration of Kusunol
- Synthesis of Cyperolone and 3-epi-Cyperolone.
- Synthesis of Cyperolone
- Structure of Isocyasterone and Epicyasterone, Novel C_ Insect-Moulting Substances from Cyathula capitata
- Absolute Configuration of Cyasterone, An Insect-Moulting Substance from Cyathula capitata
- Structure of Precyasterone, A Novel C_ Insect-Moulting Substance from Cyathula capitata
- Occurrence of Insect-Moulting Substances Ecdysterone and Inokosterone in Callus Tissues of Achyranthes
- Biochemical Syntheses. VIII. Microbial Transformation of α-Santonin to 1,2-Dihydro-α-santonin
- Biochemical Syntheses. IV. Microbial Transformation of Kessane
- Structure of Isocurcumenol
- Stereostructure of Asebotoxin I and II, Toxins of Pieris japonica
- Biosynthesis of Ponasterone A, an Insect-Moulting Substance from Podocarpus macrophyllus
- Structure of Pogostol
- Structure of Procurcumenol
- Structure of Helenium Lactone
- Structure and Absolute Configuration of Curcolone
- Structure of Curcumenol
- Structure of Curcolone
- Structure and Absolute Configuration of β-Kessyl Ketone and β-Kessyl Alcohol
- Structure and Absolute Configuration of Kessanol and 8-epi-Kessanol
- Structure and Absolute Configuration of Kessane
- Structure of Curcumol
- Structure and Absolute Configuration of Fauronyl Acetate and Cryptofauronol
- Structure of Curcumol
- Structure and Absolute Configuration of Kanokonol
- Structure and Absolute Configuration of Valeranone
- Structure of Fauronyl Acetate and Cryptofauronol
- Conformation of Valeranone and Derivatives
- Studies on the Constituents of Atractylodes. IX. Structure and Autoxidation of Atractylon
- Structure of Mokko Lactone and Dehydrocostus Lactone