Ozaki Miwako | Laboratory For Cellular Information Processing Brain Science Institute Riken
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概要
- OZAKI Miwakoの詳細を見る
- 同名の論文著者
- Laboratory For Cellular Information Processing Brain Science Institute Rikenの論文著者
関連著者
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OZAKI Miwako
Laboratory for Cellular Information Processing, Brain Science Institute, RIKEN
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Ozaki Miwako
Laboratory For Cellular Information Processing Brain Science Institute Riken
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KOBAYASHI Toru
Department of Hematopoietic Pathobiology and Medical Oncology, Mie University Graduate School of Med
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Kishigami Satoshi
Laboratory For Cellular Information Processing Brain Science Institute Riken
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YANO Ryoji
Laboratory for Cellular Information Processing, Brain Science Institute, RIKEN
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Yamamoto Hideko
Division Of Psychobiology Tokyo Institute Of Psychiatry
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Yano Ryoji
Laboratory For Cellular Information Processing Brain Science Institute Riken
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Ozaki Miwako
Laboratory For Memory And Learning Riken Brain Science Institute (bsi)
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Ohta Mitsuaki
Laboratory For Animal And Human Bonds Graduate School Of Veterinary Medicine Azabu University
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OGAI Yasukazu
Division of Psychobiology, Tokyo Institute of Psychiatry
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IKEDA Kazutaka
Division of Psychobiology, Tokyo Institute of Psychiatry
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Ogai Yasukazu
Division Of Psychobiology Tokyo Institute Of Psychiatry
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TAKAHASHI Takehiro
Division of Psychobiology, Tokyo Institute of Psychiatry
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TAKAMATSU Yukio
Division of Psychobiology, Tokyo Institute of Psychiatry
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Takamatsu Yukio
Division Of Psychobiology Tokyo Institute Of Psychiatry
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Ikeda Kazutaka
Division Of Psychobiology Tokyo Institute Of Psychiatry
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Takahashi Takehiro
Division Of Psychobiology Tokyo Institute Of Psychiatry
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Kobayashi Toru
Department Of Molecular Neuropathology Brain Research Institute Niigata University
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Kobayashi Toru
Department Of Chemical Science And Technology Faculty Of Engineering The University Of Tokushima
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KOBAYASHI Toru
Department of Agricultural and Biological Chemistry, Shinshu University
著作論文
- Expression of receptors for neuregulins, ErbB2, ErbB3 and ErbB4, in developing mouse cerebellum
- G protein-activated inwardly rectifying K^+ channel inhibition and rescue of weaver mouse motor functions by antidepressants