Dr. rer. nat. Bianka Grunow

Institut für Muskelbiologie und Wachstum

+49 38208 68-852
Leibniz-Institut für Nutztierbiologie (FBN)
Institut für Muskelbiologie und Wachstum
Nachwuchsgruppe Wachstumsphysiologie der Fische
Wilhelm-Stahl-Allee 2
18196 Dummerstorf

Forschungsinteressen

Untersuchung der Skelettmuskulatur in Fischen
  • Untersuchung der Kernprozesse in der Skelettmuskelentwicklung vom Embryo bis zum adulten Fisch
  • Differenzierung und Physiologie myogener Zellen
  • Skelettmuskelentwicklung unter Berücksichtigung klimatischer Veränderungen

Publikationen

Hodgson, P.; Ireland, J.; Grunow, B. (2018):
Fish, the better model in human heart research? Zebrafish Heart aggregates as a 3D spontaneously cardiomyogenic in vitro model system. Prog Biophys Mol Bio 138: 132-141
Hodgson, P.; Ireland, J.; Grunow, B. (2018):
Fish, the better model in human heart research? Zebrafish Heart aggregates as a 3D spontaneously cardiomyogenic in vitro model system. Prog Biophys Mol Biol (in press)
Wanka, H.; Lutze, P.; Staar, D.; Grunow, B.; Peters, B. S.; Peters, J. (2018):
An alternative renin isoform is cardioprotective by modulating mitochondrial metabolism. J Cell Mol Med 1-11
Lutze, P.; Wanka, H.; Baumgen, I.; Staar, D.; Grunow, B.; Peters, J. (2017):
An Alternative Promoter in Intron1 of the Renin Gene is Regulated by Glucose Starvation via Serum Response Factor. Cell Physiol Biochem 42: 1447-1457
Noguera, P. A.; Grunow, B.; Klinger, M.; Lester, K.; Collet, B.; Del-Pozo, J. (2017):
Atlantic salmon cardiac primary cultures: An in vitro model to study viral host pathogen interactions and pathogenesis. Plos One 12: e0181058
Grunow, B.; Kirchhoff, T.; Moritz, T. (2016):
Stem cell expression and development of trunk musculature of lesser-spotted dogfish (Scyliorhinus canicula) reveal differences between sharks and teleosts. Acta Zool 98: 214-220
Grunow, B.; Kirchhoff, T.; Lange, T.; Moritz, T.; S., H. (2015):
Histochemistry on vibratome sections of fish tissue: a comparison of fixation and embedding methods. . Aquat Biol 23: 251-263
Grunow, B.; Mohamet, L.; Shiels, H. A. (2015):
Generating an in vitro 3D cell culture model from zebrafish larvae for heart research. J Exp Biol 218: 1116-1121
Gebert, M.; Lüllwitz, L.; Grunow, B. (2014):
Neue Rohstoffe aus dem Bioreaktor- Fischzellkulturen für die Produktion von Fischmehl und Omega-3-Fettsäuren. . Foodlab 1: 16-19
Grunow, B.; Böhmert, B.; Fechner, K. (2013):
Specificity of antibodies established from mammals in rainbow trout (Oncorhynchus mykiss). . J Appl Ichthyol 29: 1129-1133
Mehnert, J. M.; Brandenburger, M.; Grunow, B. (2013):
Electrophysiological characterization of spontaneously contracting cell aggregates obtained from rainbow trout larvae with multielectrode arrays. Cell Physiol Biochem 32: 1374-1385
Grunow, B.; Schmidt, M.; Klinger, M.; Kruse, C. (2012):
Development of an in vitro cultivated, spontaneously and long-term contracting 3D heart model as a robust test system. J Cell Sci Ther 3: 1000116
Grunow, B. (2012):
Herzmodell: Herstellung von spontan kontrahierenden Kardiomyozytenverbände und deren Anwendung in der Herzforschung. . Südwestdeutscher Verlag für Hochschulschriften AG Co. KG 1-144
Grunow, B.; Noglick, S.; Kruse, C.; Gebert, M. (2011):
Isolation of Cells from Atlantic sturgeon (Acipenser oxyrinchus oxyrinchus) and Optimization of Culture Conditions. Aquat Biol 14: 67-75
Grunow, B.; Wenzel, J.; Terlau, H.; Langner, S.; Gebert, M.; Kruse, C. (2011):
In vitro developed spontaneously contracting cardiomyocytes from rainbow trout as a model system for human heart research. Cell Physiol Biochem 27: 1-12
Grunow, B.; Ciba, P.; Rakers, S.; Klinger, M.; Anders, E.; Kruse, C. (2010):
In vitro expansion of autonomously contracting, cardiomyogenic structures from rainbow trout Oncorhynchus mykiss. J Fish Biol 76: 427-434
Grunow, B.; Wenzel, J.; Gebert, M.; Kruse, C. (2010):
In vitro generated autonomously contracting cardiomyocytes from rainbow trout as a model system for human heart research. . J Biotechnol 150: 6-7
Rakers, S.; Grunow, B.; Gebert, M.; Kruse, C. (2009):
Fish Cells grown in vitro are able to build Organoid-like Bodies and can be used for 3D-Cell Cultures. . European Aquaculture Society Special Publication 507-508
Grunow, B. (2006):
Langjährige und saisonale Entwicklung des Phytoplanktons im Oderästuar. IKZM-Oder-Bericht 28: 1-75
Schernewski, G.; Hoffmann, J.; Löser, N.; Dreisand, M.; Stavenhagen, P.; Grunow, B. (2006):
Measuring the progress and outcomes of Integrated Coastal and Ocean Management: The German Oder Estuary case study. IKZM-Oder Bericht 21: 1-41