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Department of Food and Nutrition, Sugiyama Jogakuen University | 論文
- New Potent Antioxidative Hydroxyflavanones Produced with Aspergillus saitoi from Flavanone Glycoside in Citrus Fruit(Food & Nutrition Science)
- Novel Benzacridine Derivative in the Green Pigment from Methyl Caffeate and Butylamine
- Dietary Tocotrienol Reduces UVB-Induced Skin Damage and Sesamin Enhances Tocotrienol Effects in Hairless Mice
- Absorption and Excretion of the 8-Hydroxydaidzein in Rats after Oral Administration and Its Antioxidant Effect
- Dietary Sesame Seed and Its Lignan Increase Both Ascorbic Acid Concentration in Some Tissues and Urinary Excretion by Stimulating Biosynthesis in Rats
- New Potent Antioxidative o-Dihydroxyisoflavones in Fermented Japanese Soybean Products
- Formation Mechanism for Potent Antioxidative o-Dihydroxyisoflavones in Soybeans Fermented with Aspergillus saitoi
- Potent Antioxidative Isoflavones Isolated from Soybeans Fermented with Aspergillus saitoi
- CALCIUM UPTAKE, RELEASE AND Mg-ATPase ACTIVITY OF SARCOPLASMIC RETICULUM FROM ARTERIAL SMOOTH MUSCLE
- CALCIUM UPTAKE BY SUB-CELLULAR MEMBRANES FROM VASCULAR SMOOTH MUSCLE OF SPONTANEOUSLY HYPERTENSIVE RATS
- Cardiovascular Contraction in Spontaneously Hytertensive Rat--Ca2+ Interaction of Myofibrils and Subcellular Membrane of Heart and Arterial Smooth Muscle (3 Conference of Pathogenesis of Hypertension)
- Ca BINDING AND RELEASE BY MICROSOMAL FARCTION FROM RAT AORTA : EFFECTS OF NORADRENALINE AND NaCl ON Ca RELEASE
- ATPase Activity and Ca2+ Interaction of Myofibrils and Sarcoplasmic Reticulum Isolated from the Hearts of Spontaneously Hypertensive Rats
- ON THE INTERMEDIATE COMPLEX BETWEEN SUBSTRATE, PRODUCTS AND SARCOPLASMIC RETICULUM DURING CALCIUM TRANSPORT
- Dietary Sesame Lignans Decrease Lipid Peroxidation in Rats Fed Docosahexaenoic Acid
- Effects of Dietary Sesaminol and Sesamin on Eicosanoid Production and Immunoglobulin Level in Rats Given Ethanol
- Hydroxymatairesinol and Sesaminol Act Differently on Tocopherol Concentrations in Rats
- Dietary Sesame Seed Decreases Urinary Excretion of α- and γ-Tocopherol Metabolites in Rats
- Dietary Sesame Seeds Elevate α-Tocopherol Concentration in Rat Brain
- Vanillylamine Metabolism in Pseudomonas fluorescens(Microbiology & Fermentation Industry)