Imamura Takeshi | Department Of Pharmacology Shiga University Of Medical Sciences
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概要
関連著者
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OKAMURA Tomio
Department of Pharmacology, Shiga University of Medical Science
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Okamura Tomio
Department Of Pharmacology
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Tawa Masashi
Department Of Pharmacology Shiga University Of Medical Sciences
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Imamura Takeshi
Department Of Pharmacology Shiga University Of Medical Sciences
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Shimosato Takashi
Department Of Pharmacology Shiga University Of Medical Sciences
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Imamura Takeshi
Department Of Applied Physics Faculty Of Science Tokyo Institute Of Technology:(present Address) Fuj
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Geddawy Ayman
Department Of Pharmacology Shiga University Of Medical Science
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Tawa Masashi
Department Of Pharmacology Shiga University Of Medical Science
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Shimosato Takashi
Department Of Pharmacology Shiga University Of Medical Science
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Okamura Tomio
Department Of Pharmacology Shiga University Of Medical Science
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Imamura Takeshi
Department Of Biochemistry The Cancer Institute Of The Japanese Foundation For Cancer Research
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GEDDAWY Ayman
Department of Pharmacology, Shiga University of Medical Sciences
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SHIMOSATO Takashi
Department of Pharmacology, Shiga University of Medical Sciences
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Okamura T
Department Of Pharmacology Shiga University Of Medical Science
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Okamura T
Shiga Univ. Medical Sci. Ohtsu Jpn
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Yamamizu Kohei
Laboratory Of Stem Cell Differentiation Institute For Frontier Medical Sciences Kyoto University
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TAWA Masashi
Department of Pharmacology, Shiga University of Medical Science
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Ayajiki Kazuhide
Department Of Pharmacology Shiga University Of Medical Science
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Yamamizu Kohei
Laboratory Of Stem Cell Differentiation Stem Cell Research Center Institute For Frontier Medical Sci
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Ayajiki Kazuhide
Department Of Pharmacy School Of Pharmacy Hyogo University Of Health Sciences
著作論文
- Mechanism Underlying Endothelium-Dependent Relaxation by 2-Methylthio-ADP in Monkey Cerebral Artery
- Comparison of Endothelium-Related Responses to Nucleotides of Dog and Monkey Cerebral Arteries
- Impairment by Hypoxia or Hypoxia/Reoxygenation of Nitric Oxide-Mediated Relaxation in Isolated Monkey Coronary Artery : the Role of Intracellular Superoxide