Nishinakamura Ryuichi | Department Of Kidney Development Institute Of Molecular Embryology And Genetics Kumamoto University
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概要
- NISHINAKAMURA Ryuichiの詳細を見る
- 同名の論文著者
- Department Of Kidney Development Institute Of Molecular Embryology And Genetics Kumamoto Universityの論文著者
関連著者
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Nishinakamura Ryuichi
Department Of Kidney Development Institute Of Molecular Embryology And Genetics Kumamoto University
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Nishinakamura Ryuichi
Department Of Kidney Development Institute Of Molecular Embryology And Genetics (imeg) Kumamoto University
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Tanaka Satomi
Department Of Psychiatry Kitasato University School Of Medicine
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Jiang Qing
Department Of Kidney Development Institute Of Molecular Embryology And Genetics Kumamoto University
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FUJIMURA Sayoko
Department of Kidney Development, Institute of Molecular Embryology and Genetics, Kumamoto Universit
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KOBAYASHI Chiyoko
Department of Kidney Development, Institute of Molecular Embryology and Genetics, Kumamoto Universit
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NISHINAKAMURA Ryuichi
Department of Kidney Development, Institute of Molecular Embryology and Genetics, Kumamoto Universit
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Kobayashi Chiyoko
Department Of Kidney Development Institute Of Molecular Embryology And Genetics Kumamoto University
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Fujimura Sayoko
Department Of Kidney Development Institute Of Molecular Embryology And Genetics Kumamoto University
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Tam Patrick
Embryology Unit Children's Medical Research Institute
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Kojima Yoji
Embryology Unit Children's Medical Research Institute (cmri)
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YAMAGUCHI Yasuka
Global COE "Cell Fate Regulation Research and Education Unit", Kumamoto University
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Tam Patrick
Embryology Unit Children's Medical Research Institute (cmri)
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Tanaka Satomi
Department Of Kidney Development Institute Of Molecular Embryology And Genetics (imeg) Kumamoto University
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Tanaka Satomi
Department Of Hematology Chiba University Hospital
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Yamaguchi Yasuka
Global Coe "cell Fate Regulation Research And Education Unit" Kumamoto University
著作論文
- Overexpression of Sall1 in vivo leads to reduced body weight without affecting kidney development
- Impact of WNT signaling on tissue lineage differentiation in the early mouse embryo