Scientific Publications Search Search Author Release Date Research Group Search Sort by RelevanceFrom A-ZAuthored onDate/Time RangeRelease date Order AscDesc Birchmeier-Kohler, Carmen Prof. Dr. (1) Escobar Fernandez, Helena Dr. (1) Fielitz, Jens Dr. (2) Hübner, Norbert Prof. Dr. (1) Ivics, Zoltan Dr. (12) Izsvak, Zsuzsanna Dr. (15) Prigione, Alessandro Prof. Dr. (1) Saar, Kathrin Dr. (1) Selbach, Matthias Prof. Dr. (1) Singh, Manvendra Dr. (2) Spuler, Simone Prof. (7) (-) Chen, Wei Prof. Dr. (1) (-) Marg, Andreas Dr. (1) 2009 (1) 2010 (1) 2011 (3) 2012 (5) (-) 2014 (2) 2016 (3) 2017 (1) 2018 (1) 2019 (1) Cellular Neurosciences (2) Developmental Biology / Signal Transduction (1) Experimental Ultrahigh-Field MR (3) From Cell States to Function (1) Genetics and Genomics of Cardiovascular Diseases (1) Magnetic Resonance (3) (-) Mobile DNA (2) (-) Myology (1) Proteome Dynamics (1) Proteomics and Metabolomics (1) Proteomics and Molecular Mechanisms of Neurodegenerative Diseases (1) Psychoneuroimmunology (1) RNA Biology and Posttranscriptional Regulation (3) Systems Biology of Gene Regulatory Elements (3) 2 Results: Active Filter: Chen, Wei Prof. Dr.Marg, Andreas Dr.Mobile DNAMyology2014 Sort: Result score Newest to oldest Oldest to newest October 01, 2014 / J Clin Invest Human satellite cells have regenerative capacity and are genetically manipulable A. Marg H. Escobar S. Gloy M. Kufeld J. Zacher A. Spuler C. Birchmeier Z. Izsvák S. Spuler December 18, 2014 / Nature Primate-specific endogenous retrovirus-driven transcription defines naive-like stem cells J. Wang G. Xie M. Singh A.T. Ghanbarian T. Raskó A. Szvetnik H. Cai D. Besser A. Prigione N.V. Fuchs G.G. Schumann W. Chen M.C. Lorincz Z. Ivics L.D. Hurst Z. Izsvák
October 01, 2014 / J Clin Invest Human satellite cells have regenerative capacity and are genetically manipulable A. Marg H. Escobar S. Gloy M. Kufeld J. Zacher A. Spuler C. Birchmeier Z. Izsvák S. Spuler
December 18, 2014 / Nature Primate-specific endogenous retrovirus-driven transcription defines naive-like stem cells J. Wang G. Xie M. Singh A.T. Ghanbarian T. Raskó A. Szvetnik H. Cai D. Besser A. Prigione N.V. Fuchs G.G. Schumann W. Chen M.C. Lorincz Z. Ivics L.D. Hurst Z. Izsvák