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(BS46) |
The DNA helicase Mcm2 gives the heart a twist |
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T. Casar Tena, L. Maerz, T. Blätte, M. O’Driscoll, P. Jeggo, M. Philipp (Ulm; Brighton, UK) |
|
(BS47) |
M3 muscarinic receptors limit pacemaker potential during early cardiogenesis |
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M. Burczyk, T. Casar Tena, M. Burkhalter, F. Raad, S. Matysik, S. Wiese, M. Forster, M. Radenz, M. Kühl, W.-H. Zimmermann, M. Philipp (Ulm, Jena, Göttingen) |
|
(BS48) |
The Metalloprotease ADAM10 is essential for cardiac development and homeostasis |
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S. Weber, L. Radon, A. El-Armouche (Dresden) |
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(BS49) |
The Insulin-like growth factor binding protein 5 (IGFBP5) - a potential developmental gene is regulated upon cardiac stress |
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M. Wölfer, C. Noack, M. Tiburcy, S. Khadjeh, E. Chebbok, G. Hasenfuß, W.-H. Zimmermann, K. Toischer, L. Zelarayán (Göttingen) |
|
(BS50) |
Development of human heart muscle macro-tissue for cardiac repair |
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P. Balfanz, M. Tiburcy, T. Meyer, W.-H. Zimmermann (Göttingen) |
|
(BS51) |
Evaluating suitable fibroblast sources for the generation of engineered heart muscle |
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S. Schlick, M. Tiburcy, S. Zeidler, S. Lutz, E. Wingender, W.-H. Zimmermann (Göttingen) |
|
(BS52) |
Engineered Heart Muscle from Rhesus Macaque Induced Pluripotent Stem Cell-Derived Cardiomyocytes |
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B. Golat, A. Krahn, W.-H. Zimmermann (Göttingen) |
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(BS53) |
In-vitro vascularization of human engineered heart muscle with endothelial cells |
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I. Eckhardt, P. L. Soong, W.-H. Zimmermann (Göttingen) |
|
(BS54) |
Reporting ROS in human cardiomyocytes and fibroblasts with the genetically encoded redox sensor Grx1-roGFP2 |
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E. Heta, P. L. Soong, V. Nikolaev, M. Mayr, W.-H. Zimmermann (Göttingen, Hamburg; London, UK) |