PE-201 Cell-to-cell communication via cadherins contributes to differentiation of human adult progenitor cells into cardiomyocytes(Development and Differentiation 1 (M) : PE34)(Poster Session (English))
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概要
- 論文の詳細を見る
- 社団法人日本循環器学会の論文
- 2004-03-01
著者
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Hoffmann Joerg
Molecular Cardiology University Of Frankfurt
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Koyanagi Masamichi
Institute Of Cardiovascular Regeneration Center For Molecular Medicine University Of Frankfurt
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Zeiher Andreas
Institute Of Cardiovascular Regeneration Center For Molecular Medicine University Of Frankfurt
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Koyanagi Masamichi
Institute For Cardiovascular Regeneration Centre Of Molecular Medicine University Of Frankfurt
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Koyanagi Masamichi
Molecular Cardiology, University of Frankfurt
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Rupp Stefan
Molecular Cardiology, University of Frankfurt
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Badorff Cornel
Molecular Cardiology, University of Frankfurt
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Haendeler Judith
Molecular Cardiology, University of Frankfurt
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Zeiher Andreas
Molecular Cardiology, University of Frankfurt
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Dimmeler Stefanie
Molecular Cardiology, University of Frankfurt
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Dimmeler Stefanie
Institute of Cardiovascular Regeneration Center for Molecular Medicine, University of Frankfurt
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Haendeler Judith
Department of Molecular Aging Research, University of Duesseldorf
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Haendeler Judith
Department Of Molecular Aging Research University Of Duesseldorf
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Badorff Cornel
Molecular Cardiology University Of Frankfurt
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Dimmeler Stefanie
Institute Of Cardiovascular Regeneration Center For Molecular Medicine University Of Frankfurt
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Dimmeler Stefanie
Molecular Cardiology University Frankfurt
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Rupp Stefan
Institute For Cardiovascular Regeneration Centre Of Molecular Medicine University Of Frankfurt
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Koyanagi Masamichi
Department Of Molecular Cardiology University Of Frankfurt
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Koyanagi Masamichi
Molecular Cardiology University Of Frankfurt
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Zeiher Andreas
Department Of Molecular Cardiology University Of Frankfurt
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Zeiher Andreas
Institute For Cardiovascular Regeneration Centre Of Molecular Medicine University Of Frankfurt
関連論文
- PE-201 Cell-to-cell communication via cadherins contributes to differentiation of human adult progenitor cells into cardiomyocytes(Development and Differentiation 1 (M) : PE34)(Poster Session (English))
- OE-358 Non-canonical Wnt signaling contributes to differentiation of circulating progenitor cells to cardiomyogenic cells(Development and Differentiation 2 (H) : OE45)(Oral Presentation (English))
- OE-252 Sox2 Converts Human Mesoangioblasts into Nanog-expressing Multipotent Cells with Enhanced Cardiac Repair(OE43,Regeneration (M),Oral Presentation (English),The 73rd Annual Scientific Meeting of The Japanese Circulation Society)
- PJ-093 Wnt5a Increases the Histone 3 Lysine 9 Demethylases and Induces Epigenetic Remodelling in Adult Progenitor Cells(PJ016,Molecular Biology/Genetics, Myocardium, Vascular (M),Poster Session (Japanese),The 73rd Annual Scientific Meeting of The Japanese
- PE-453 Hepatocyte Growth Factor Mobilizes Multipotent Mesoangioblasts(PE076,Regeneration (M),Poster Session (English),The 73rd Annual Scientific Meeting of the Japanese Circulation Society)
- PJ-562 Wnt5a Modulates Cardiac Gene Expressions and Histone Modifications of Adult Progenitor Cells via a PKC δ-dependent Pathway(Regeneration (angiogenesis/myocardial regeneration)(05)(M),Poster Session(Japanese),The 72nd Annual Scientific Meeting of the
- OE-333 Notch Signaling Stimulates Expression of Wnts and Contributes to Cardiac Markers Gene Expression in Human Progenitor Cell(Development and differentiation(01)(M),Oral Presentation(English),The 72nd Annual Scientific Meeting of the Japanese Circulati
- PE-438 Activation of PKC δ and Serum Response Factor by Non-canonical Wnts Enhances the Differentiation of Circulating Progenitor Cells to Cardiomyocytes(Heart failure, basic-5, The 71st Annual Scientific Meeting of the Japanese Circulation Society)
- OE-133 Notch Signaling Contributes to Adult Progenitor Cell Differentiation into Cardiomyocytes(Development and differentiation-1, The 71st Annual Scientific Meeting of the Japanese Circulation Society)
- PE-105 Rho Kinase-dependent Activation of PKC Delta by Non-canonical Wnts Enhances the Differentiation of Circulating Progenitor Cells to Cardiomyocytes(Development and differentiation-2 (M) PE18,Poster Session (English),The 70th Anniversary Annual Scient
- OE-332 Cell-to-cell Communication by Nanotubes between Endothelial Progenitor Cells and Cardiomyocytes Allows for Transport of MicroRNA and Protein Complexes(Molecular biology, myocardium-1 (M) OE56,Oral Presentation (English),The 70th Anniversary Annual
- Role of acetylation and homeobox genes in endothelial differentiation(Cardiovascular Development, The 69th Annual Scientific Meeting of the Japanese Circulation Society)
- State-of-the-Art : Endothelial progenitor cells in vascular repair(Cell Death and Repair-Regeneration in Cardiac and Vascular Diseases,Plenary Session 3 (PL3) (M),The 70th Anniversary Annual Scientific Meeting of the Japanese Circulation Society)
- Circulating Progenitor Cells for Regeneration Enhancement in Ischemic Heart Disease(Vascular Regeneration (M), The 69th Annual Scientific Meeting of the Japanese Circulation Society)