| PS-1(IL-30) |
Health Benefits of Rice Bran Oil |
M. Sugano and E. Tsuji* |
Laboratory of Food Science, Prefectural University of Kumamoto
*Kawasaki University of Medical Welfare, Kurashiki |
| PS-2 |
The Effects of Rice Bran Oil and Perilla Oil on Serum and Liver Lipid Levels |
E. Tsuji |
Kawasaki University of Medical Welfare Kurashiki, Okayama |
| PS-3 |
Effects of Safflower Oil/Rice Bran Oil Mixtures on Serum and Liver Lipid Profiles in Rats |
K. Koba, J.-W. Liu*, E. Bobik*, Y. S. Huang* and M. Sugano** |
Nagasaki Prefectural Women's Junior College, *Ross Products Division, Abbott Laboratories, **Prefectural
University of Kumamoto |
| PS-4 |
Study on the Special Components of Rice Bran Oil (I) |
H. Naruse and Y. Takeshita* |
Biochem. Dept., Kyokuto International Co., Ltd.
*Dr. Eng., Former Prof. Facul. Eng. Kokushikan Univ., Tokyo |
| PS-5 |
Study on the Special Components of Rice Bran Oil (II) |
H. N. and Y. Takeshita* |
Biochem. Dept., Kyokuto International Co., Ltd.
*Dr. Eng., Former Prof. Facul. Eng. Kokushikan Univ., Tokyo |
| PS-6(IL-24) |
Phenolic Antioxidants from Natural Sources |
N. Nakatani |
Osaka City University |
| PS-7(IL-2) |
Protective Role of Rice Antioxidants in Oxidative Stress |
T. Osawa |
Nagoya University |
| PS-8(IL-25) |
Preparation of Ferulic Acid and Its Use |
H. Taniguchi |
Industrial Technological Center of Wakayama Prefecture
|
| PS-9(IL-26) |
Synthesis and Biological Activities of Ferulic Acid Derivatives |
H. Kayahara, Z. Miao, S. Toyota and G. Fujiwara |
Dept. of Bioscience and Biotechnology, Shinshu University
8304 Minamiminowa-mura, Kamiina-gun, Nagano |
| PS-10(IL-27) |
Chemopreventive Effects of Ferulic Acid and Rice-germ on Oral or Large Bowel Carcinogenesis |
H. Mori, K. Kawabata, T. Tanaka*, T. Murakami**, T. Okada** and H. Murai** |
Department of Pathology, Gifu University School of Medicine
*Department of Pathology, Kanazawa Medical University
**Oryza Oil & Fat Chemical Co., Ltd. |
| PS-11(IL-28) |
Study of Inhibitory Effect of Ferulic Acid Derivatives on Rat Colon Carcinogenesis |
H. Tsuda |
National Cancer Center Research Institute, Tokyo |
| PS-12(IL-29) |
The Inhibitory Effect of DL--Tocopheryl Ferulate in Lecithin on Melanogenesis |
M. Ichihashi,, Y. Funasaka, A. K. Chakraborty*, M. Komoto, A. Ohashi, K. Inoue** and K. P. Wittern*** |
Department of Dermatology, Kobe University, Kobe
*Department of Dermatology, Yale University, New Haven CT
**Nivea-Kao Co., Ltd., Tokyo
***Beiersdorf AG, Germany |
| PS-13 |
Inhibitory Effects of Ferulic Acid and Related Compounds on Linoleic Acid Peroxidation |
H. Morishita and M. Ohnishi* |
Faculty of Education, Wakayama University, Wakayama
*Department of Pharmaceutical Science, Institute of Medical Science, Kansai Shinkyu Medical College, 1-11-2
Wakaba Kumatori Sennan, Osaka
|
| PS-14 |
Synthesis of Ferulic Acid Derivatives by Using Enzyme |
K. Takagi, A. Mizuno and H. Taniguti* |
Dept. of Industrial Chem., Wakayama National College of Technology, 77 Noshima, Nada, Gobo, Wakayama
*Institute of Technology Center of Wakayama Prefecture, Ogura, Wakayama |
| PS-15 |
Development of Enzymatic Modification Techniques of Ferulic Acid |
H. Aoki and T. Hagiwara |
Research & Development Center, Nichirei Corporation
9 Shinminato, Mihama-ku, Chiba
|
| PS-16 |
Ferulic Ester Concerned to Double Acid Value of Cereal Lipids |
Y. Takeshita and O. Okubo* |
Dr. Eng., Former Prof. Fac. Eng. Kokushikan Univ., Tokyo and Chairman of Tech. Comm. of Japan Rice Bran
Oil Ind. Society
*Late Officer of National Chemical Lab. for Industry
|
| PS-17 |
Inhibitory Effect of Cycloatrenol Ferulate from Rice Bran on Tumor Promotion in Two-Stage Carcinogenesis in
Mouse Skin |
K. Yasukawa, T. Akihisa*, T. Tamura* and M. Takido |
Coll. Pharm., Nihon Univ., 7-7-1, Narashinodai, Funabashi-shi, Chiba
*Coll. Sci. & Tech., Nihon Univ., 1-8, Kanda Surugadai, Chiyoda-ku, Tokyo |
| PS-18 |
Bactericidal Effect of Various Concentrations of Ferulic Acid on Diseased Freshwater Fish by Bacteria |
S. Tsujiwaki and K. Nakajima |
Koshien University |
| PS-19 |
Antimicrobial Activity of Ferulates and Related Compounds |
Y. Maruta, T. Takuo and E. Nomura* |
Tsuno Rice, Fine Chemicals Co., Ltd., Chonomachi, Katsuragi, Ito, Wakayama
*Industrial Technology Center of Wakayama Prefecture, Ogura, Wakayama |
| PS-20 |
Separation Method of Individual Compounds of -Oryzanol |
T. Tsuno, C. Hayashi and Seiko Minami |
Tsuno Rice, Fine Chemicals Co., Ltd., Chonomachi, Katsuragi, Ito, Wakayama |
| PS-21 |
The Regioselective Esterification of Ferulic Acid to myo-Inositol and the Characteristics of Obtained Esters |
A. Hosoda, E. Nomura and H. Taniguchi |
Industrial Technology Center of Wakayama Prefecture, 60 Ogura, Wakayama, Japan |
| PS-22 |
Phenolic Compounds of Korean Red Wine and their Superoxide Radical Scavenging Activity |
K. H. Koh, J. H. Lee and K. L. Seo* |
Dept. of Food and Nutrition, The Catholic University of Korea, Puchon, 422-743, Korea
**Dept. of Chemistry, The Catholic University of Korea, Puchon 422-743, Korea |
| PS-23 |
Accumulative Effects of -Aminobutyric Acid (GABA) for Defatted Rice Germ |
A. Onoda, T. Saikusa, T. Horino, O.Kajimoto*, A. Miyamoto**, Y. Tanaka***, T. Murakami****, T. Okada****
and H. Murai**** |
Chugoku National Agricultural Experiment Station
*Center for Health Care, Osaka Univ. of Foreign Studies
**Dept. of Psychitry, Osaka Univ. Medical School
***Dept. of Psychosomatic Medicine, Shirai Hospital, Osaka
****Oryza Oil & Fat Chemical Co., Ltd. |
| PS-24 |
Effect of Rice Bran Fluid treated with Enzymes and B. Bifidum on Alloxan-Diabetic Rats and Stress-Induced
Gastric Ulcers in Rats |
K. Nakajima, T. Ogushi* and K. Shibata* |
Koshien University, *The Sunai Institute of Kano Shojuan Co., Ltd.
|
| PS-25 |
Study of Water-Soluble Antioxidative Components from Rice Bran |
T. Izumi, T. Kijima, T. Ogata, N. Yamada* and H. Kamada** |
Faculty of Engineering, Yamagata University, 4-3-16 Jonan, Yonezawa, Yamagata, Japan
*Department of Health and Nutrition, Yonezawa Women's College of Yamagata Prefecture, 6-15-1 Torimachi,
Yonezawa, Yamagata
**Institute for Life Support Technology, Yamagata Technopolis Foundation, 2-2-1 Matsuei, Yamagata
|
| PS-26 |
Isolation and Characterization of a Protein from Rice Bran that binds to Fibronectin and its Activity for Tumor
Cell Adhesion |
Y. Shoji and M. Isemura |
Laboratory of Cellular Biochemistry, Graduate School of Nutrition and Environmental Sciences, University of
Shizuoka |
| PS-27 |
The Application of the Chemical Compounds of Rice to Cosmetics |
K. Yamada |
Technoble Co., Ltd.
1-6-8 Kitaholie, Nisiku, Osaka |
| PS-28 |
Transgenic Rice Expressing Human Milk Protein, Lactoferrin |
H. Anzai, H. Takaiwa* and K. Katsumata |
Allergen Free-Technology(AFT) Laboratories Inc.
*National Institute of Agrobiological Resources
|
| PS-29 |
Preparation of Hydroxyapatite and Bone China using Calcium Hydrogenphosphate obtained from Rice Bran |
S. Minami and T. Tsuno |
Tsuno Rice, Fine Chemicals Co., Ltd., Chonomachi, Katsuragi, Ito, Wakayama |
| PS-30 |
MGN-3 Immunotherapy for the Treatment of Cancer |
M. Ghoneum. and H. Maeda* |
Department of Otolaryngology, Drew University of Medicine and Science, Los Angeles
*Daiwa Pharmaceutical Co., Ltd., Tokyo, Japan |
| PS-31 |
Synthesis of Monoacylglycerol Monoglucoside by Rice -Glucosidase in an Organic Solvent and its
Emulsifying Properties |
T. Nakae*, T. Kometani, T. Nishimura, H. Takii and S. Okada |
Biochemical Research Laboratory, Ezaki Glico Co., Ltd., Utajima 4-6-5, Nishiyodogawa, Osaka |
| PS-32 |
Immunostimulation Activity of Annual Plant Heteroxylans in relation to Their Structural and Molecular Properties |
A. Ebringerova and Z. Hromadkova |
Institute of Chemistry of The Slovak Academy Of Sciences
Dubravska cesta 9, 842 38 Bratislava, Slovak Republic |
| PS-33 |
Fungal (13)--D-Glucans, Physico-Chemical Characterization and Immunomodulatory Activity |
J. Sandula, E. Machova and G. Kogan |
Institute of Chemistry, Slovak Academy of Sciences
Dubravaska, 9, 842 38 Bratislava, Slovak Republic |
| PS-34 |
Synthesis of the Tetrasaccharide Repeating Unit of the O-Antigen from Shigella Dysenteriae Type-5 |
Indrani Mukherjee, Ali Mukherjee, Saibal K. Das and N. Roy |
Department of Biological Chemistry, Indian Association for the Cultivation of Science, Calcutta-700032, India |
| PS-35(IL-1) |
Chemical Components of Rice Bran: myo-Inositol and its Related Compounds |
S. Ogawa |
Keio University |
| PS-36 |
Synthesis of Biologically Active Compounds from Deoxyinositols derived by Bioconversion of myo-Inositol |
S. Uetsuki, Y. Tezuka, T. Morikawa, A. Takahashi* and K. Sato* ,S. Ogawa |
Department of Applied Chemistry, Faculty of Science and Technology, Keio University, Hiyoshi, Kohoku-ku,
Yokohama
*Central Research Laboratories, Hokko Chemical Industries Co., Ltd., Toda, Atsugi |
| PS-37(IL-3) |
The Cancer Problem-Chemoprevention and Therapy |
H. Sugano |
Cancer Institute, Tokyo |
| PS-38(IL-4) |
Chemoprevention of Pulmonary Carcinogenesis by myo-Inositol |
L. W. Wattenberg |
University of Minnesota, Minneapolis |
| PS-39(IL-5) |
Suppression of Liver Carcinogenesis in Mice by Oral Administration of myo-Inositol |
H. Nishino |
Kyoto Prefectural University of Medicine |
| PS-40(IL-6) |
Mammary Cancer Inhibition by IP6 in vivo |
M. Hirose and N. Ito* |
National Institute of Health Sciences, Tokyo
*Nagoya City University |
| PS-41(IL-7) |
IP6 in Drink inhibits Mammary Tumor more efficiently than Wheat Bran |
I.Vucenik, Guang-yu Yang and AbulKalam M. Shamsuddin* |
Department of Medical and Research Technology
*Department of Pathology
University of Maryland, School of Medicine, Baltimore, MD 21201, USA |
| PS-42(IL-8) |
Intra-tumoral Injection of IP6 regresses Pre-existing Human Liver Cancer Xenotransplanted
in Nude Mice |
Chen Hong, Z. Zhang, Zhang Yali and Zhou Dianyuan |
Department of Gastroenterology, Nangfang Hospital, Guangzhou, 510515, P. R. China |
| PS-43(IL-9) |
Prevention of Colon Carcinogenesis by Components of Dietary Fiber |
B.S.Reddy, Anjana Challa and Damanna Ramakishan Rao |
American Health Foundation, Valhalla, New York |
| PS-44(IL-10) |
Dietary Fiber and Breast Cancer |
L. A. Cohen |
American Health Foundation, New York |
| PS-45(IL-11) |
Hypolipidemic Action of IP6: Prevention of Fatty Liver |
T. Katayama |
Hiroshima University |
| PS-46 |
Effect of Dietary Level of Phytic Acid on Lipid Metabolism and Intestinal Activities of Enzymes in Rats Fed on
Sucrose |
S. Onomi and T. Katayama* |
Department of Applied Biochemistry, Faculty of Applied Biological Science, Hiroshima University
*Laboratory of Nutritional Science, Faculty of Education, Hiroshima University |
| PS-47(IL-12) |
IP6 as a Lipid-lowering and Anti-atherogenic Agent |
R. Jariwalla |
California Institute of Medical Research, San Jose |
| PS-48(IL-13) |
Protection against Cardiovascular Disease: Anti-platelet Action of IP6 |
I. Vucenik*+ and J. J. Podczasy* |
*Department of Medical and Research Technology, +Department of Pathology
University of Maryland School of Medicine, Baltimore, MD 21291, USA |
| PS-49(IL-14) |
Enhancing Effect of IP6 on Neutrophil Respiratory Burst and Effect on Inflammatory
Cytokine Regulation |
P. Eggleton |
Oxford University |
| PS-50(IL-15) |
Phytate Inhibitory Action on Renal Stone Formation |
F. Grases |
University of Balearic Islands, Spain |
| PS-51 |
Study of the Action of Phytic Acid in preventing Calcium Oxalate Renal Stone Formation using an
Experimental Model with Urothelium of Pig Urinary Bladder |
F. Grases, A. Costa-Bauza, L. Garcia-Ferragut and J.G. March |
Laboratory of Urolithiasis Research, University of Balearic Islands, 07071-Palma de Mallorca, Spain
|
| PS-52(IL-16) |
Action of IP6 against HIV |
T. Otake |
Osaka Prefectural Institute of Public Health |
| PS-53(IL-17) |
Signal Transduction and Regulation by Drugs |
G. Weber |
Indiana University, Indianapolis |
| PS-54(IL-18) |
Synthesis of Inositol Triphosphate and Phospholipids |
Y. Watanabe |
Ehime University |
| PS-55 |
Synthetic Strategies for Inositol Phospholipids |
Y. Watanabe, M. Nakatomi, H. Takao, H. Mitsumoto and H. Ishikawa |
Department of Applied Chemistry, Faculty of Engineering, Ehime University, Matsuyama, Japan |
| PS-56 |
Real Time Analysis of the Inositol Phosphate-Protein Interaction |
H. Yagisawa, K. Sakuma, Y.M. Fujii, H. Hirata, M. Hirata* and Y. Watanabe** |
Department of Life Science, Faculty of Science, Himeji Institute of Technology, Hyogo
*Department of Biochemistry, Faculty of Dentistry, Kyushu University, Fukuoka
**Department of Applied Chemistry, Faculty of Engineering, Ehime University, Matsuyama |
| PS-57(IL-19) |
Metabolism and Cellular Functions of IP6 |
A.K.M. Shamsuddin |
University of Maryland, Baltimore |
| PS-58(IL-20) |
PI-3 Kinase in Signal Transduction, Cell Transformation, and as a Target for Chemoprevention of Cancer |
Z. Dong |
University of Minnesota, Austin |
| PS-59(IL-21) |
Inhibition of Skin Cancer by IP6 in in vivo Initiation
Promotion Model |
T. Ishikawa |
University of Tokyo |
| PS-60(IL-22) |
Nuclear Polyphosphoinositides |
L.Cocco, R. Stewart Gilmour*, S. G. Rhee** and F. A. Manzoli |
Institute of Anatomy, University of Bologna, Italy: The University of Auckland, School of Medicine, N.Z.
Laboratory of Cell Signaling, NHLBI, NIH, Bethesda, MD** |
| PS-61(IL-23) |
Inositol Hexakisphosphate and the -Cell Stimulus-Secretion Coupling |
P.-O. Berggren |
Department of Molecular Medicine, Karolinska Institutet, Sweden |
| PS-62(IL-24) |
Antioxidant Activity of Phytic Acid Hydrolysis Products |
S. Miyamoto, J. Terao, G. Kuwata* and M. Imai* |
Dept. Nutrition, School of Medicine, The University of Tokushima
*Research Institute of Morinaga & Co., Ltd. |
| PS-63 |
Significance of Metal-Phytic Acid Complexes M(PA)H5 as a Reactive Substrate in Phytase Reactions |
A. Odani, Y. Kimura, T. Yamada and O. Yamauchi |
Department of Chemistry, Graduate School of Science, Nagoya University, Nagoya |
| PS-64 |
Bioconversion of myo-Inositol to Rare Cyclic Sugar Alcohols |
A. Takahashi, K. Kanbe, T. Tamamura and K. Sato |
Central Research Laboratories, Hokko Chemical Industries Co., Ltd., Atsugi, Kanagawa |
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