Yano Yumihiko | Department Of Chemistry Faculty Of Engineering Gunma University
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概要
関連著者
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Yano Yumihiko
Department Of Chemistry Faculty Of Engineering Gunma University
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YANO Yumihiko
Department of Chemistry, Gunma University
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Yano Y
Department Of Chemistry Faculty Of Engineering Gunma University
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Kondo Shin-ichi
Department Of Applied Physics Faculty Of Engineering Fukui University
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Nabeshima Tatsuya
Department Of Chemistry Graduate School Of Pure And Applied Sciences University Of Tsukuba
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Tagaki Waichiro
Department of Applied Chemistry, Faculty of Engineering Osaka City University
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KONDO Shin-ichi
Department of Chemistry, Faculty of Science and Engineering, Ritsumeikan University
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Kondo Shin-ichi
Department Of Chemistry Gunma University
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Kondo S
Department Of Chemistry Faculty Of Engineering Gunma University
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Kondo S
Gunma Univ. Gunma
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Nabeshima Tatsuya
Department Of Chemistry University Of Tsukuba
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Kondo Shinichi
Department Of Chemistry Gunma University
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Kajiki Takeshi
Department Of Chemistry Faculty Of Engineering Gunma University
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Nabeshima T
Department Of Chemistry University Of Tsukuba
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KAJIKI Takeshi
Department of Chemistry, Faculty of Engineering, Gunma University
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Tamura Yoshiharu
Department of Chemistry, Faculty of Engineering, Gunma University
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WATANABE Shigeki
Department of Internal Medicine, Tokai University School of Medicine
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MORIYA Hideki
Department of Surgery, Tokai Univ. School of Medicine
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Watanabe Shigeki
Department Of Chemistry Gunma University
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Watanabe S
Department Of Material Science Faculty Of Science Kochi University
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HOSHINO Kazuhiko
Department of Chemistry, Faculty of Engineering, Gunma University
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UTSUMI Katsuhiro
Department of Chemistry, Faculty of Engineering, Gunma University
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Moriya Hideki
Department Of Chemistry Faculty Of Engineering Gunma University
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Watanabe S
Department Of Chemistry Gunma University
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TAKAKI Akiko
Department of Chemistry, Faculty of Engineering, Gunma University
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Takaki Akiko
Department Of Chemistry Faculty Of Engineering Gunma University
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Hoshino K
Department Of Chemistry Faculty Of Engineering Gunma University
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Utsumi Katsuhiro
Department Of Chemistry Faculty Of Engineering Gunma University
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Tamura Norio
Department of Physics, Okayama University
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Hayashi Tomohiro
Department Of Pathology Nippon Medical School
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Hayashi Tomohiro
Department Of Chemistry Faculty Of Engineering Gunma University
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Kondo Shin-ichi
Department Of Chemistry Faculty Of Engineering Gunma University
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ANDO Nobuyuki
Department of Engineering, Tokyo University of Agriculture and Technology
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Ando Nobuyuki
Department Of Applied Chemistry Faculty Of Engineering Chiba University
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Ando Nobuyuki
Department Of Chemistry Faculty Of Engineering Gunma University
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Nabeshima Tatsuya
Department Of Chemistry Gunma University
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NISHIHARA Yasushi
Chemical Resources Laboratory, Tokyo Institute of Technology
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Yokoyama Takashi
Department Of Chemistry Faculty Of Science Kyushu University
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KOSAKA Naoki
Department of Chemistry, Gunma University
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FUJIMOTO Akihide
Department of Chemistry, Faculty of Engineering, Gunma University
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KAJIKI Tekeshi
Department of Chemistry, Faculty of Engineering, Gunma University
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NISHIHARA Yasuaki
Department of Chemistry, Faculty of Engineering, Gunma University
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Kondo Shiro
Department Of Chemistry Faculty Of Science Toyama University
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Suzuki Takashi
Department Of Biochemistry University Of Shizuoka School Of Pharmaceutical Sciences:core Research Fo
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Hoshino Yutaka
Department Of Bioactive Molecules National Institute Of Infectious Diseases
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Yano Yumihiko
Department Of Chemistry Gunma University
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Kosaka Naoki
Department Of Chemistry Gunma University
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Tamura Norio
Department Of Chemistry Faculty Of Engineering Gunma University
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OSAWA Yohichi
Department of Chemistry, Faculty of Engineering, Gunma University
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Osawa Yohichi
Department Of Chemistry Faculty Of Engineering Gunma University
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Nishihara Y
Chemical Resources Laboratory Tokyo Institute Of Technology
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KUROI Tadashi
Department of Chemistry, Faculty of Engineering, Gunma University
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TAKANO Masanori
Department of Chemistry, Gunma University
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OHSHIMA Shunji
Department of Chemistry, Gunma University
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Ohshima Shunji
Department Of Chemistry Gunma University
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TOYAMA Takuya
Department of Information Sciences, Faculty of Science & Technology, Science University of Tokyo
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TSUKADA Naoko
Department of Chemistry, Gunma University
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HARUYAMA Tsutomu
Department of Chemistry, Gunma University
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TOMINAMI Takashi
Department of Chemistry, Gunma University
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IKEDA Kiyonori
Department of Chemistry, Gunma University
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SAKUNO Yuichi
Department of Chemistry, Gunma University
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Sakuno Y
Gunma Univ. Gunma Jpn
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Fujimoto A
Kyoto Univ. Kyoto
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Toyama Takuya
Department Of Chemistry Faculty Of Engineering Gunma University
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Tsukada Naoko
Department Of Chemistry Gunma University
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Kuroi Tadashi
Department Of Chemistry Faculty Of Engineering Gunma University
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Yokoyama Takashi
Department Of Chemistry Gunma University
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Takano Masanori
Department Of Chemistry Gunma University
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Tominami Takashi
Department Of Chemistry Gunma University
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Ikeda K
Univ. Tokyo Tokyo
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Haruyama Tsutomu
Department Of Chemistry Gunma University
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Suzuki Takashi
Department Of Anesthesia Showa University Northern Yokohama Hospital
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Suzuki Takashi
Department Of Anatomic Pathology Tohoku University School Of Medicine
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Kurashima Akira
Department of Chemistry, Faculty of Engineering, Gunma University
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Hoshino Yutaka
Department of Chemistry, Faculty of Engineering, Gunma University
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Tagaki Waichiro
Department of Chemistry, Faculty of Engineering, Gunma University
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Tagaki Waichiro
Department of Chemistry, Faculty of Technology, Gunma University
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Okonogi Tsuneo
Department of Chemistry, Faculty of Technology, Gunma University
著作論文
- Flavin Receptors. Effects of Melamine Derivatives Bearing Thiourea and Thiouronium Ion on the Binding and Reactivity of Flavin Mimics in Chloroform
- Flavin Receptors. Effect of the Acidity of Melamine Derivatives Bearing a 2-Arylguanidinium Ion on 6-Azaflavin Binding in Chloroform
- Functional Flavin Receptors.Bis-melamine Derivatives Bearing a Guanidinium Ion Which Bind 6-Azaflavin and a Thymine-Linked Substrate through Hydrogen Bonds in Chloroform
- Regulation of Redox Properties of 6 - Azaflavin by Hydrogen Bonding with a Receptor in Chloroform - Acetonitrile
- Bifunctional Receptor. Rate-acceleration of Oxidative Decarboxylation of Pyruvate by Thymine-Thiazolium and Zn^ in the Presence of a Melamine Derivative Bearing α-Bipyridine Moiety in Chloroform-Acetonitrile
- A Novel Oxidative Decarboxylation of α-Substituted α-Hydroxy Acids by a Functionalized Oxidation-active Flavin Mimic in the Presence of a Metal Ion in t-Butyl Alcohol
- Bifunctional Receptors. Rate Accelerations of Oxidative Decarboxylation of Pyruvate by Thymine-Thiazolium in the Presence of a Melamine Derivative Bearing a Guanidinium Ion
- Rate Acceleration of the Oxidation of an NADH Model by Flavin with a Functionalized Flavin Receptor in Chloroform
- Remarkably High Regioselectivity in the Reaction of Carboxybenzaldehydes with a Crowned Thiazolium Ion in the Presence of Alkali Metal in Chloroform-Acetonitrile
- Facile Synthesis of Thioloriat Ethers or Crown Ethers Containing a Mercapto Group as a Side Arm
- Importance of N(3)-H of an Isoalloxazine Ring. Large Metal Ion Effect on Oxidation of an NADH Model by the N(3)-H Dissociated Flavin
- Anion Recognition by 1, 3-Benzenedisulfonamide Derivatives Bearing Phenolic Hydroxy Groups in MeCN-d_3
- Cooperative Effect of a Metal Ion and Hydrogen Bonds on Phosphodiester Cleavage in Acetonitrile
- Structural aspects of catalytic activities of thiazolium salts in benzoin condensation reaction in methanol.
- Amine base-catalyzed H-D exchange reaction of 2,3,4-trimethylthiazolium iodide in methanol-d4.
- Mechanism of base catalyzed oxidation of 2-(1-hydroxyalkyl)-thiazolium ion with 3-methyllumiflavin.
- Micellar Effect of Lauryldimethylsulfonium Halides on the Hydrolysis of p-Nitrophenyl Decanoate
- Phase transfer catalyzed reaction of organic thiocyanates with hydroxide ion.
- Asymmetric benzoin condensation catalyzed by optically active thiazolium salts in micellar two-phase media.