金澤 治男 | Kyoto Pharmaceutical University
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概要
関連著者
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金澤 治男
Kyoto Pharmaceutical University
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金澤 治男
Kyoritsu College Of Pharmacy
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小原 晃
Kyoto College of Pharmacy
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小原 晃
Laboratory Of Biochemistry Kyoto Pharmaceutical University
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Kanazawa H
Dept. Biotechnology Faculty Of Engineering Sciences
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藤本 貞毅
Kyoto Pharmaceutical University
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藤本 貞毅
Laboratory Of Biochemistry Kyoto Pharmaceutical University
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Ohara A
Kyoto Pharmaceutical Univ. Kyoto Jpn
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Chara A
Laboratory Of Biochemistry Kyoto Pharmaceutical University
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坂根 万純
Kyoto College of Pharmacy
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Shimomura Tetsuya
Dept. Biotechnology Faculty Of Engineering Sciences
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土屋 照雄
Gifu Prefectural Hospital
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石光 進
Kyoto Phramaceutical Univeristy
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Tsuchiya Tomofusa
岡山大学 薬学部
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Tsuchiya T
Faculty Of Pharmaceutical Sciences Okayama University
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Tsuchiya T
Okayama Univ. Okayama
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NOUMI Takato
Dept. Biotechnology, Faculty of Engineering Sciences
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Noumi Takato
Dept. Biotechnology Faculty Of Engineering Sciences
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Tsuchiya T
Faculty Of Pharmaceutical Sciences Hokuriku University
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Tsuchiya Tomofusa
Department Of Microbiology Fujita Health University
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TSUCHIYA Tomofusa
Department of Molecular Microbiology, Graduate School of Medicine, Dentistry and Pharmaceutical Scie
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MATSUMOTO Shigenobu
Tokyo Metropolitan Institute of Gerontology
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INOUE Hiroki
Department of Public Health, Graduate School of Medicine, Chiba University
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Fujii N
Kyoritsu College Of Pharmacy
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SAKURAI Tatsuya
Department of Internal Medicine (III), Jikei University of Medicine
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KANAZAWA Hiroshi
Department of Biology, Graduate School of Science, Osaka University
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Matsumoto Shun-ichiro
Institute For Drug Discovery Research Yamanouchi Pharmaceutical Co. Ltd.
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INOUE Hiroki
Dept. Biotechnology, Faculty of Engineering Sciences
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TAKIMOTO Nobuya
Dept. Biotechnology, Faculty of Engineering Sciences
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TSUCHIYA Tomofusa
Dept. Microbiology, Faculty of Pharmaceutical Sciences
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KANAZAWA Hiroshi
Dept. Biotechnology, Faculty of Engineering Sciences
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NOUMI Takato
Department of Biotechnology, Faculty of Engineering Sciences, Okayama University
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Tsuchiya Tomofusa
Department Of Microbiology Faculty Of Pharmaceutical Sciences Okayama University
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MATSUSHIMA Yoshikazu
Kyoritsu College of Pharmacy
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青木 香代子
Kyoto College Of Pharmacy
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KANAZAWA Hideko
Kyoritsu University of Pharmacy
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NAGATA Yoshiko
Kyoritsu College of Pharmacy
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Matsumoto Sayaka
Faculty Of Pharmaceutical Sciences Osaka University
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Kanazawa Hiroshi
Department Of Biological Sciences Graduate School Of Science Osaka University
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Yoda R
Kyoritsu College Of Pharmacy
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Matsuoka Yuji
School Of Medicine Fukuoka University
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Nagata Y
Kyoritsu College Of Pharmacy
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常国 良一
Kyoto College Of Pharmacy
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川俣 孝次
Kyoto College of Pharmacy
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古田 聖二
Kyoto College of Pharmacy
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Matsushima Y
Kyoritsu College Of Pharmacy
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FUJII Noriko
Kyoritsu College of Pharmacy
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FUKUDA Sumi
Kyoritsu College of Pharmacy
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YODA Reiko
Kyoritsu College of Pharmacy
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中川 力
Kyoto College of Pharmacy
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Takimoto Nobuya
Dept. Biotechnology Faculty Of Engineering Sciences
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Inoue Hiroki
Department Of Biological Sciences Graduate School Of Science Osaka University
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中川 力
Giba-geigy (japan) Limited
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金澤 治男
Kytot College of Pharmacy
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小原 晃
Kytot College of Pharmacy
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Kanazawa Hideko
Kyoritsu College Of Pharmacy
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Noumi Takato
Department of Biotechnology, Faculty of Engineering Sciences
著作論文
- pH-Dependent Growth Retardation of Escherichia coli Caused by Overproduction of Na^+/H^+ Antiporter
- Identification and Characterization of Functional Residues in a Na^+/H^+ Antiporter (NhaA) from Escherichia coli by Random Mutagenesis^1
- Inactivation of Cholinesterase by Ascorbic Acid in the Presence of Cupric Ions : A Possible Mechanism for the Inactivation of an Enzyme by the Metal-Catalyzed Oxidation System
- On the Mechanism of Inactivation of Active Papain by Ascorbic Acid in the Presence of Cupric Ions
- Effect of Radical Scavengers on the Inactivation of Papain by Ascorbic Acid in the Presence of Cupric Ions
- Site-Specific Inactivation of Papain by Ascorbic Acid in the Presence of Cupric Ions
- Chymopapain. I. Oxidation of Tryptophan Residues by N-Bromosuccinimide
- Chymopapain. II. Photooxidation of Histidine Residues
- Species Absorbing in the 500-nm Region in the Reactions of Pyridoxamine with Pyrroloquinoline Quinone and Phenathrolinequinones
- Studies on the Active Site of Papain. V. Photooxidation of Histidine Residues
- Studies on the Active Site of Papain. VIII. Photooxidation of Tryptophan Residues
- Studies on the Active Site of Papain. VI. Chemical Modification of Tryptophan Residues by N-Bromosuccinimide
- Studies on the Active Site of Papain. IV. Influence of Dehydroascorbic Acid and Ascorbic Acid