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School Of Pharmaceutical Sciences Mukogawa Women S University | 論文
- TWO NEW POTENT INHIBITORS OF XANTHINE OXIDASE FROM LEAVES OF PERILLA FRUTESCENS BRITTON VAR. ACUTA KUDO
- A Novel Flavonol Glycoside in the Leaves of Epimedium sempervirens
- Phytochemical Studies on Meliaceous Plants. IV. : Structure of a New Pregnane Glycoside, Toosendanoside, from Leaves of Melia toosendan SIEB. et ZUCC.
- Two New Triterpenoid Glycosides from Leaves of Ilex chinensis SIMS(Organic,Chemical)
- Growth Inhibition, Morphological Change, and Ectoenzyme Release of LLC-PK1 Cells by Phosphatidylinositol-specific Phospholipase C of Bacillus thuringiensis
- Release of Ectoenzymes from Small Intestine Brush Border Membranes of Mice by Phospholipases
- THE STABILIZING ACTION OF HYDROXYPYRUVALDEHYDE PHENYLOSAZONE AND ITS DERIVATIVES ON BOVINE ERYTHROCYTE MEMBRANE
- The Combination Effect of L-Arginine and NaCl on Bitterness Suppression of Amino Acid Solutions
- The Effect of Various Substances on the Suppression of the Bitterness of Quinine-Human Gustatory Sensation, Binding, and Taste Sensor Studies
- Chemical Evaluation of Betula Species in Japan. IV. Constituents of Betula davurica
- Chemical Evaluation of Betula Species in Japan. II. Constituents of Betula platyphylla var. japonica
- Discovery of R-142086 as a Factor Xa (FXa) Inhibitor : Syntheses and Structure-Activity Relationships of Cinnamyl Derivatives
- Cinnamyl Derivatives : Synthesis and Factor Xa (FXa) Inhibitory Activities
- Cinnamylindoline Derivatives : Synthesis and Factor Xa (FXa) Inhibitory Activities
- Indoline Derivatives II : Synthesis and Factor Xa (FXa) Inhibitory Activities
- Indoline Derivatives I : Synthesis and Factor Xa (FXa) Inhibitory Activities
- [2-(ω-Phenylalkyl)phenoxy]alkylamines III : Synthesis and Selective Serotonin-2 Receptor Binding (2)
- [2-(ω-Phenylalkyl)phenoxy]alkylamines II : Synthesis and Selective Serotonin-2-Receptor Binding
- [2-(ω-Phenylalkyl)phenoxy]alkylamines : Synthesis and Dual Dopamine_2 (D_2) and 5-Hydroxytryptamine_2 (5-HT_2) Receptor Antagonistic Activities
- Three New Diarylheptanoid Glycosides from Alnus japonica