Shinozuka K | Department Of Chemistry Faculty Of Engineering Gunma University
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概要
関連著者
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Shinozuka K
Faculty Of Engineering Gunma University
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Shinozuka K
Department Of Chemistry Faculty Of Engineering Gunma University
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Shinozuka Kazuo
Department Of Applied Chemistry Faculty Of Engineering Gunma University
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Arai Takayuki
Department of Electrical and Electronics Engineering, Sophia University
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Arai Takayuki
Department Of Chemistry Faculty Of Engineering Gunma University
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SAWAI Hiroaki
Department of Chemistry and Chemical Biology, Graduate School of Engineering, Gunma University
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Sawai Hiroaki
Department Of Applied Chemistry Faculty Of Engineering Gunma University
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毛利 和子
Faculty Of Pharmaceutical Sciences Okayama University
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MIYASHITA Takanori
Biochemical Division, Yamasa Corpomtion
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MORI Kenya
Biochemical Division, Yamasa Corpomtion
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Sawai H
Gunma Univ. Gunma
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Arai T
Department Of Medical Imaging National Institute Of Radiological Sciences:crest Japan Science And Te
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Maruyama T
Biochemical Division Yamasa Corpomtion
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Ishikawa Masayuki
Department of Applied Bioscience, Faculty of Agriculture, Hokkaido University
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Shinozuka Kazuo
Faculty Of Engineering Gunma University
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Baba M
Department Of Natural Medicine And Phytochemistry Meiji Pharmaceutical University
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Shigeta S
Fukushima Medical University
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BABA Masanori
Fukushima Medical University
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SHIGETA Shiro
Fukushima Medical University
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KOHDA Junya
Department of Chemistry, Faculty of Engineering, Gunma University
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Kohda Junya
Department Of Chemistry Faculty Of Engineering Gunma University
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Ishikawa Masayuki
Department Of Chemistry Faculty Of Engineering Gunma University
著作論文
- Synthesis and Anti-HIV-1 Activity of Novel 10-Thiaisoalloxazines, a Structural Analog of C-5 and/or C-6 Substituted Pyrimidine Acyclonucleoside
- Facile Synthesis of a Phosphotriester Intermediates for Solution-Phase Preparation of Oligonucleotide Phosphorothioates
- Effect of the Carbamoyl Group Attached to an Axial Ligand Portion of a Novel Bleomycin Model on a Dioxygen Activating Reaction
- Distal Effect of Amide and Amino Groups on the Oxygen Activation Ability and Rate of the Redox Reaction of Simplified Analogs of Bleomycin