及川 勉 | Department of Cancer Therapeutics, The Tokyo Metropolitan Institute of Medical Science
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概要
関連著者
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及川 勉
Department of Cancer Therapeutics, The Tokyo Metropolitan Institute of Medical Science
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及川 勉
(財)東京都臨床医学総合研究所化学療法研究部門
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小野沢 千津子
理研
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小野沢 千津子
Department of Cancer Therapeutics, The Tokyo Metropolitan Institute of Medical Science (Rinshoken)
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大村 智
The Kitasato Institute
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水野 克利
Chemistry Research Laboratories Research and Development Division, Takeda Chemical Industries, Ltd.
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柴田 潔
Department Of Chemistry Nippon Dental University
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水野 克利
Chemistry Research Laboratories Research And Development Division Takeda Chemical Industries Ltd.
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小笠原 宏幸
Department of Cancer Therapeutics, The Tokyo Metropolitan Institute of Medical Science
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佐野 浩
Marine Biotechnology Institute
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室田 誠逸
Tokyo Metropolitan Institute of Gerontology
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山口 稽子
Faculty Of Pharmaceutical Sciences Science University Of Tokyo
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野上 晴雄
Second Anatomy, Jikei University School of Medicine
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佐々木 美幸
Department Of Cancer Therapeutics The Tokyo Metropolitan Institute Of Medical Science (rinshoken)
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野上 晴雄
Second Anatomy Jikei University School Of Medicine
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及川 勉
Department Of Immunochemotherapy Tokyo Metropolitan Institute Of Medical Science
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猪瀬 雅世
Department of Cancer Therapeutics, The Tokyo Metropolitan Institute of Medical Science (Rinshoken)
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坂口 美里
Department of Cancer Therapeutics, The Tokyo Metropolitan Institute of Medical Science
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森田 育男
Tokyo Medical and Dental University
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猪瀬 雅世
Department Of Cancer Therapeutics The Tokyo Metropolitan Institute Of Medical Science (rinshoken)
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坂口 美里
Department Of Cancer Therapeutics The Tokyo Metropolitan Institute Of Medical Science
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小笠原 宏幸
Department Of Cancer Therapeutics The Tokyo Metropolitan Institute Of Medical Science:(present Addre
著作論文
- POSSIBLE FUNCTIONAL GROUPS RESPONSIBLE FOR INHIBITION OF IN VIVO ANGIOGENESIS BY HERBIMYCIN A
- Studies on Membrane Transport in Sensitized Rats. I. Absorption of Horseradish Peroxidase from the Intestine of Sensitized and Non-sensitized Rats
- DEPUDECIN, A MICROBIAL METABOLITE CONTAINING TWO EPOXIDE GROUPS, EXHIBITS ANTI-ANGIOGENIC ACTIVITY IN VIVO
- THREE ISOFORMS OF PLATELET-DERIVED GROWTH FACTORS ALL HAVE THE CAPABILITY TO INDUCE ANGIOGENESIS IN VIVO