Inanobe Atsushi | Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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概要
- INANOBE Atsushiの詳細を見る
- 同名の論文著者
- Department Of Pharmacology Ii Graduate School Of Medicine Osaka Universityの論文著者
関連著者
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Kurachi Yoshihisa
Department of Pharmacology II, Osaka University
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Fujita Satoru
Department of cardiology, Niigata University Graduate School of Medical and Dental Science
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Fujita Satoru
Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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Kurachi Yoshihisa
Department Of Pharmacology Graduate School Of Medicine Osaka University
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INANOBE Atsushi
Department of Pharmacology II, Graduate School of Medicine, Osaka University
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Inanobe Atsushi
Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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Kurachi Yoshihisa
Department Of Cell Biology And Signaling Yamagata University School Of Medicine:department Of Pharma
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FUJITA Satoru
Department of Adaptive Machine Systems, Osaka University
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ISHII Masaru
Department of Physics and Mathematics, Aoyama Gakuin University
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Makino Yasunaka
Department of Cardiology, Kansai Electric Power Hospital
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Hosoya Yukio
Department Of Nursing Yamagata School Of Health Science
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Hosoya Yukio
Department Of Cell Biology And Signaling Yamagata University School Of Medicine
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Kurachi Yoshihisa
Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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Makino Yasunaka
Department Of Cardiology Kansai Electric Power Hospital
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Makino Yasunaka
Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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CHACHIN Motohiko
Department of Neurobiology, Kyoto Pharmaceutical University
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Chachin Motohiko
Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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Ishii Masaru
Department Of Pharmacology Ii Graduate School Of Medicine Osaka University
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Chachin Motohiko
Department Of Neurobiology Kyoto Pharmaceutical University
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Ishii Masaru
Department Of Clinical Research
著作論文
- Ca^ Elevation Evoked by Membrane Depolarization Regulates G Protein Cycle via RGS Proteins in the Heart
- A rerulator of G protein signailing (RGS) protein confers agonist-dependent relaxation gating to a G protein-gated K^+ channel