スポンサーリンク
Faculty of Pharmaceutical Science, Tokushima Bunri University | 論文
- Induction of Metallothionein Synthesis by Cilostazol in Mice and in Human Cultured Neuronal Cell Lines(Molecular and Cell Biology)
- Hg(OTf)_2-catalyzed Cycloisomerization of Aryl- and Hetero-substituted 1,3-Dienes
- P-97 C-Ring Formation of Sterol Biosynthesis is Not Concerted Reaction
- Structure Revision of Polypodoside A. Major Sweet Principle of Polypodium glycyrrhiza
- Total Synthesis of (+)-Bicyclohumulenone
- Total Synthesis and Cytotoxicity of (+)- and (-)-Goniodiol and 6-epi-Goniodiol. Construction of α,β-Unsaturated Lactones by Ring-Closing Metathesis
- New Glycosides from the Japanese Fern Hymenophyllum barbatum
- New Bitter-Tasting Hemiterpene Glycosides from the Japanese Fern Hymenophyllum barbatum
- Hymenosides A-F, Six New Hemiterpene Glucosides from the Japanese Fern Hymenophyllum barbatum
- Occurrence of a Bis-bibenzyl Derivative in the Japanese Fern Hymenophyllum barbatum : First Isolation and Identification of Perrottetin H from the Pteridophytes
- New Chroman Derivatives from the Japanese Liverworts Metacalypogeia cordifolia and Cephalozia otaruensis
- NOVEL SKEELETAL DITERPENOIDS FROM THE JAPANESE LIVERWORT PALLAVICINIA SUBCILIATA
- Occurrence of ent-Sesquiterpene in the Japanese Moss-Plagiomnium acutum : First Isolation and Identification of the ent-Sesqui-and Dolabellane-type Diterpenoids from the Musci
- P-120 Synthetically Useful Reactions Catalyzed by Hg (OTf)_2
- DUMORTENOLS, NOVEL SKELETAL SESQUITERPENOIDS FROM THE ARGENTINIAN LIVERWORT DUMORTIERA HIRSUTA
- EUDESMANE- TYPE SESQUITERPENOIDS FROM JAPANESE LIVERWORT FRULLANIA TAMARISCI SUBSP. OBSCURA
- PB98 SYNTHESIS OF BAIYUNOSIDE, PHLOMISOSIDE I, II AND THEIR RELATED GLYCOSIDES : APPROACH TO NEW SWEET TASTE
- PB196 SYNTHESIS OF BAIYUNOSIDE, PHLOMISOSIDE I, II AND THEIR RELATED GLYCOSIDES : APPROACH TO NEW SWEET TASTE
- Pigments from Uroleucon nigrotuberculatum Induce Apoptosis in HL60 Human Leukemia Cells, Implicating Intracellular Oxidative Stress and Activation of Caspases(Molecular and Cell Biology)
- Modulated Responses to Restraint Stress and Inflammation in Metallothionein-Null Mice