Complete list of publications

 
Differentiation of human induced pluripotent stem cells (iPS cells) and embryonic stem cells (ES cells) into dendritic cell (DC) subsets.
Sontag, S., Förster, M., Seré, K. and Zenke, M. (2017).
Bio-protocol 7, e2419.
 
Modelling IRF8 deficient human hematopoiesis and dendritic cell development with engineered induced pluripotent stem cells.
Sontag, S., Förster, M., Qin, J., Wanek, P., Mitzka, S., Schüler, H. M., Koschmieder, S., Rose-John, S., Seré, K. and Zenke, M. (2017).
Stem Cells 35, 898-908.
 
Surface-grafted nanogel arrays direct cell adhesion and motility.
Sechi, A, Freitas, J, Wünnemann, P, Töpel, A, Paschoalin, RT, Ullmann, S, Schröder, R, Aydin, G, Rütten, S, Böker, A, Zenke, M and Pich, A. (2016).
Adv Mater Int, 1600455, doi: 10.1002/admi.201600455.
 
Analysis of computational footprinting methods for DNase sequencing experiments.
Gusmao, E. G., Allhoff, M., Zenke, M., and Costa, I. G. (2016).
Nature Methods 13, 303-309 (see also Editorial Nature Methods 13, 185)  Abstract Full
 
Epigenetic program and transcription factor circuitry of dendritic cell development.
Lin, Q., Chauvistré, H., Costa, I. G., Gusmão, E. G., Mitzka, S., Haenzelmann, S., Baying, B., Klisch, T., Moriggl, R., Hennuy, B., Smeets, H., Hoffmann, K., Benes, V., Seré, K., and Zenke, M. (2015).
Nucl. Acid Res. 43, 9680-9693.  Abstract Full
 
Crucial role for the LSP1-Myosin 1e bi-molecular complex in the regulation of Fcγ receptor-driven phagocytosis.
Maxeiner, S., Shi, N., Schalla, C., Aydin, G., Hoss, M., Vogel, S., Zenke, M., and Sechi, A. S. (2014).
Mol. Biol. Cell 26, 1652-1664.  Abstract | Full
 
The clash of Langerhans cell homeostasis: Should I stay or should I go?
Hieronymus, T., Zenke, M., Baek, J. H., and Seré, K. (2014).
Semin. Cell. Dev. Biol., S1084-9521. Abstract | Full
 
Cell fusion enhances mesendodermal differentiation of human induced pluripotent stem cells.
Qin, J., Sontag, S., Lin, Q., Mitzka, S., Leisten, I., Schneider, R. K., Wang, X., Jauch, A., Peitz, M., Brüstle, O., Wagner, W., Zhao, R. C., and Zenke, M. (2014).
Stem Cells Dev. 23, 2875-2482. Abstract | Full
 
Dendritic cell development requires histone deacetylase activity.
Chauvistré, H., Küstermann, C., Rehage, N., Klisch, T., Mitzka, S., Felker, P., Rose-John, S., Zenke, M., and Seré, K. (2014).
Eur. J. Immunol. 44, 2478-2488.
 
The polycomb protein Ezh2 impacts on induced pluripotent stem cell generation.
Ding, X., Wang, X., Sontag, S., Qin, J., Wanek, P., Lin, Q., and Zenke, M. (2014).
Stem Cells Dev. 23, 931-940. Abstract | Full
 
Two distinct types of Langerhans cells populate the skin during steady state and inflammation.
Seré, K., Baek, J. H., Ober-Blöbaum, J., Müller-Newen, G., Tacke, F., Yokota, Y., Zenke, M., and Hieronymus, T. (2012).
Immunity 37, 905-916.
 
The HGF receptor/met tyrosine kinase is a key regulator of dendritic cell migration in skin immunity.
Baek, J. H., Birchmeier, C., Zenke, M., and Hieronymus, T. (2012).
J. Immunol. 189, 1699-1707.
 
TGF-ß1 accelerates dendritic cell differentiation from common dendritic cell progenitors and directs subset specification toward conventional dendritic cells.
Felker, P., Seré, K., Lin, Q., Becker, C., Hristov, M., Hieronymus, T., and Zenke, M. (2010).
J. Immunol. 185, 5326-5335.
 
Human adult germline stem cells in question.
Ko, K., Araúzo-Bravo, M. J., Tapia, N., Kim, J., Lin, Q., Bernemann, C., Han, D. W., Gentile, L., Reinhardt, P., Greber, B., Schneider, R. K., Kliesch, S., Zenke, M., and Schöler, H. R. (2010).
Nature 465, E1-E3.  Abstract | Full
 
Pluripotent stem cells induced from adult neural stem cells by reprogramming with two factors.
Kim, J. B., Zaehres, H., Wu, G., Gentile, L., Ko, K., Sebastiano, V., Arauzo-Bravo J. M., Ruau, D., Han, D. W., Zenke, M., and Schöler H. R. (2008).
Nature 54, 646-650.
 
Pluripotency associated genes are reactivated by chromatin modifying agents in neurosphere cells.
Ruau, D., Ensenat-Waser, R., Dinger, T. C., Vallabhapurapu, D. S., Rolletschek, A., Hacker, C., Hieronymus, T., Wobus, A. M., Müller, A. M., and Zenke, M. (2008).
Stem Cells 26, 920-926.
 
Assessment of stem cell/biomaterial combinations for stem cell-based tissue engineering. 
Neuss, S., Apel, C., Buttler, P., Denecke, B., Dhanasingh, A., Ding, X., Grafahrend, D., Groger, A., Hemmrich, K., Herr, A., Jahnen-Dechent, W., Mastitskaya, S., Perez-Bouza, A., Rosewick, S., Salber, J., Wöltje, M., and Zenke, M. (2008).
Biomaterials 29, 302-313.  Abstract | Full
 
Towards an understanding of the transcription factor network of dendritic cell development. 
Zenke, M., and Hieronymus, T. (2006).
Trends Immunol. 27, 140-145.
 
Progressive and controlled development of mouse dendritic cells from Flt3+CD11b+ progenitors in vitro. 
Hieronymus, T., Gust, T. C., Kirsch, R. D., Jorgas, T., Blendinger, G., Goncharenko, M., Supplitt, K., Rose-John, S., Muller, A. M., and Zenke, M. (2005).
J. Immunol. 174, 2552-2562.
 
RNA-containing adenovirus/polyethylenimine transfer complexes effectively transduce dendritic cells and induce antigen-specific T cell responses. 
Gust, T. C., Diebold, S. S., Cotten, M., and Zenke, M. (2004).
J. Gene Med. 6, 464-470.
Abstract | Full
 
Transcriptional profiling identifies Id2 function in dendritic cell development. 
Hacker. C., Kirsch, R. D., Ju, X.-S., Hieronymus, T., Gust, T. C., Kuhl, C., Jorgas, T., Kurz, S. M., Rose-John, S., Yokota, Y., and Zenke, M. (2003).
Nat. Immunol. 4, 380-386.  Abstract | Full
 
The impact of c-met/scatter factor receptor on dendritic cell migration. 
Kurz S. M., Diebold S. S., Hieronymus T., Gust T. C., Bartunek P., Sachs M., Birchmeier W. and Zenke M. (2002).
Eur. J. Immunol. 32, 1832-1838.  Abstract | Full
 
MHC class II presentation of endogenously expressed antigens by transfected dendritic cells. 
Diebold, S. S., Cotten, M., Koch, N., and Zenke, M. (2001).
Gene Ther. 8, 487-493.
 
Mannose polyethylenimine conjugates for targeted DNA delivery into dendritic cells. 
Diebold, S. S., Kursa, M., Wagner, E., Cotten, M., and Zenke, M. (1999).
J. Biol. Chem. 274, 19087-19094.
 
Growth and differentiation of human stem cell factor/erythropoietin-dependent erythroid progenitor cells in vitro.
Panzenböck, B., Bartunek, P., Mapara, M. Y., and Zenke, M. (1998).
Blood 92, 3658-3668.  Abstract | Full
 
Retinoid X receptor and c-cerbA/thyroid hormone receptor regulate erythroid cell growth and differentiation
Bartunek, P., and Zenke, M. (1998).
Mol. Endocrinol. 12, 1269-1279.  Abstract | Full
 
Dendritic cell progenitor is transformed by a conditional v-Rel estrogen receptor fusion protein v-RelER. 
Boehmelt, G., Madruga, J., Dorfler, P., Briegel, K., Schwarz, H., Enrietto, P. J., and Zenke, M. (1995).
Cell 80, 341-352.
 
Ectopic expression of a conditional GATA-2/estrogen receptor chimera arrests erythroid differentiation in a hormone-dependent manner. 
Briegel, K., Lim, K. C., Plank, C., Beug, H., Engel, J. D., and Zenke, M. (1993).
Genes Dev. 7, 1097-1109.  Abstract | Full
 
Receptor-mediated endocytosis of transferrin-polycation conjugates: An efficient way to introduce DNA into hematopoietic cells. 
Zenke, M., Steinlein, P., Wagner, E., Cotten, M., Beug, H., and Birnstiel, M. L. (1990).
Proc. Natl. Acad. Sci. USA 87, 3655-3659.  Abstract | Full
 
v-erbA oncogene activation entails the loss of hormone-dependent regulator activity of c-erbA. 
Zenke, M., Munoz, A., Sap, J., Vennström, B., and Beug, H. (1990).
Cell 61, 1035-1049.  Abstract | Full
 
v-erbA specifically suppresses transcription of the avian erythrocyte anion transporter (band 3) gene. 
Zenke, M., Kahn, P., Disela, C., Vennstrom, B., Leutz, A., Keegan, K., Hayman, M. J., Choi, H. R., Yew, N., Engel, J. D., et al. (1988).
Cell 52, 107-19.  Abstract | Full
 
Multiple sequence motifs are involved in SV40 enhancer function. 
Zenke, M., Grundstrom, T., Matthes, H., Wintzerith, M., Schatz, C., Wildeman, A., and Chambon, P. (1986).
EMBO J. 5, 387-97.  Abstract | Full

  

PubMed Link (to last publications)