Researcher Portfolio

Dr. Zarzycki, Jan

Cellular Operating Systems, Department of Biochemistry and Synthetic Metabolism, Max Planck Institute for Terrestrial Microbiology, Max Planck Society, Understanding and Building Metabolism, Department of Biochemistry and Synthetic Metabolism, Max Planck Institute for Terrestrial Microbiology, Max Planck Society

Researcher Profile

Position: Postdoc (Understanding and Building Metabolism, Department of Biochemistry and Synthetic Metabolism, Max Planck Institute for Terrestrial Microbiology, Max Planck Society)

Position: Staff Scientist (Cellular Operating Systems, Department of Biochemistry and Synthetic Metabolism, Max Planck Institute for Terrestrial Microbiology, Max Planck Society)

Researcher ID: https://pure.mpg.de/cone/persons/resource/persons254859

External references

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Publications

: Appiah, B., Fullio, C. L., Ossola, C., Bertani, I., Restelli, E., Cheffer, A., Polenghi, M., Haffner, C., Garcia-Miralles, M., Zeis, P., Treppner, M., Bovio, P., Schlichtholz, L., Mas-Sanchez, A., Zografidou, L., Winter, J., Binder, H., Grün, D., Kalebic, N., Taverna, E., & Vogel, T. (2023). DOT1L activity affects neural stem cell division mode and reduces differentiation and ASNS expression. EMBO reports, 24(8): e56233. doi:10.15252/embr.202256233. [PubMan] : Mora-Bermúdez, F., Taverna, E., & Huttner, W. B. (2022). From stem and progenitor cells to neurons in the developing neocortex: Key differences among hominids. The FEBS Journal, 289(6), 1524-1535. doi:10.1111/febs.15793. [PubMan] : Lin, H.-C., He, Z., Ebert, S., Schörnig, M., Santel, M., Nikolova, M. T., Weigert, A., Hevers, W., Kasri, N. N., Taverna, E., Camp, J. G., & Treutlein, B. (2021). NGN2 induces diverse neuron types from human pluripotency. Stem cell reports, 16(9), 2118-2127. doi:10.1016/j.stemcr.2021.07.006. [PubMan] : Lin, H.-C., He, Z., Ebert, S., Schörnig, M., Santel, M., Nikolova, M. T., Weigert, A., Hevers, W., Kasri, N. N., Taverna, E., Camp, J. G., & Treutlein, B. (2021). NGN2 induces diverse neuron types from human pluripotency. Stem Cell Reports, 16, 2118-2127. doi:10.1016/j.stemcr.2021.07.006. [PubMan] : Schörnig, M., & Taverna, E. (2021). A closer look to the evolution of neurons in humans and apes using stem-cell-derived model systems. Frontiers in Cell and Developmental Biology, 9: 661113. doi:10.3389/fcell.2021.661113. [PubMan] : Mora-Bermúdez, F., Taverna, E., & Huttner, W. (2021). From stem and progenitor cells to neurons in the developing neocortex - key differences among hominids. The FEBS journal, doi: 10.1111/febs.15793, pp. 1-1. doi:10.1111/febs.15793. [PubMan] : Shull, G., Haffner, C., Huttner, W., Taverna, E., & Kodandaramaiah, S. B. (2021). Manipulation of Single Neural Stem Cells and Neurons in Brain Slices using Robotic Microinjection. Journal of visualized experiments: JoVE, (167): e61599, pp. 1-1. doi:10.3791/61599. [PubMan] : Shull, G., Haffner, C., Huttner, W. B., Taverna, E., & Kodandaramaiah, S. B. (2021). Manipulation of Single Neural Stem Cells and Neurons in Brain Slices using Robotic Microinjection. Journal of Visualized Experiments, 167: e61599. doi:10.3791/61599. [PubMan] : Schörnig, M., Ju, X.-C., Fast, L., Weigert, A., Schaffer, T., Ebert, S., Treutlein, B., Kasri, N. N., Peter, B., Hevers, W., & Taverna, E. (2021). Comparison of induced neurons reveals slower structural and functional maturation in humans than in apes. eLife, 10: e59323. doi:10.7554/eLife.59323. [PubMan] : Taverna, E., & Huttner, W. (2019). The Golgi Apparatus in Polarized Neuroepithelial Stem Cells and Their Progeny: Canonical and Noncanonical Features. In M. Kloc (Ed.), The Golgi apparatus and centriole: functions, interactions and role in disease (pp. 359-375). Cham: Springer International Publishing. [PubMan] : Shull, G., Haffner, C., Huttner, W., Kodandaramaiah, S. B., & Taverna, E. (2019). Robotic platform for microinjection into single cells in brain tissue. EMBO reports, 20(10): e47880. doi:10.15252/embr.201947880. [PubMan] : Shull, G., Haffner, C., Huttner, W. B., Kodandaramaiah, S. B., & Taverna, E. (2019). Robotic platform for microinjection into single cells in brain tissue. EMBO reports, 20(10): e47880. doi:10.15252/embr.201947880. [PubMan] : Taverna, E., & Huttner, W. B. (2019). The Golgi apparatus in polarized neuroepithelial stem cells and their progeny: Canonical and noncanonical features. In M. Kloc (Ed.), The Golgi Apparatus and Centriole: Functions, Interactions and Role in Disease (pp. 359-375). Cham: Springer International Publishing. doi:10.1007/978-3-030-23173-6_15. [PubMan] : Tavano, S., Taverna, E., Kalebic, N., Haffner, C., Namba, T., Dahl, A., Wilsch-Bräuninger, M., Paridaen, J. T. M. L., & Huttner, W. B. (2018). Insm1 Induces Neural Progenitor Delamination in Developing Neocortex via Downregulation of the Adherens Junction Belt-Specific Protein Plekha7. Neuron, 97(6): e8, pp. 1299-1314. doi:10.1016/j.neuron.2018.01.052. [PubMan] : Tavano, S., Taverna, E., Kalebic, N., Haffner, C., Namba, T., Dahl, A., Wilsch-Bräuninger, M., Paridaen, J., & Huttner, W. B. (2018). Insm1 Induces Neural Progenitor Delamination in Developing Neocortex via Downregulation of the Adherens Junction Belt-Specific Protein Plekha7. Neuron, 97(6), 1299-1314. doi:10.1016/j.neuron.2018.01.052. [PubMan] : Arai, Y., & Taverna, E. (2017). Neural progenitor cell polarity and cortical development. Frontiers in Cellular Neuroscience, 11: 384. doi:10.3389/fncel.2017.00384. [PubMan] : Kalebic, N., Taverna, E., Tavano, S., Wong, F. K., Suchold, D., Winkler, S., Huttner, W. B., & Sarov, M. (2016). CRISPR/Cas9-induced disruption of gene expression in mouse embryonic brain and single neural stem cells in vivo. EMBO Reports, 17(3), 338-348. [PubMan] : Taverna, E., Mora-Bermúdez, F., Strzyz, P. J., Florio, M., Icha, J., Haffner, C., Norden, C., Wilsch-Bräuninger, M., & Huttner, W. B. (2016). Non-canonical features of the Golgi apparatus in bipolar epithelial neural stem cells. Scientific Reports, 6: 21206. [PubMan] : Wong, F. K., Fei, J., Mora-Bermúdez, F., Taverna, E., Haffner, C., Fu, J., Anastassiadis, K., Stewart, A. F., & Huttner, W. B. (2015). Sustained Pax6 Expression Generates Primate-like Basal Radial Glia in Developing Mouse Neocortex. PLoS Biology, 13(8): e1002217. [PubMan] : Florio, M., Albert, M., Taverna, E., Namba, T., Brandl, H., Lewitus, E., Haffner, C., Sykes, A., Wong, F. K., Peters, J., Guhr, E., Klemroth, S., Prüfer, K., Kelso, J., Naumann, R., Nüsslein, I., Dahl, A., Lachmann, R., Pääbo, S., & Huttner, W. B. (2015). Human-specific gene ARHGAP11B promotes basal progenitor amplification and neocortex expansion. Science (New York, N.Y.), 347(6229), 1465-1470. [PubMan] : Taverna, E., Götz, M., & Huttner, W. B. (2014). The cell biology of neurogenesis: toward an understanding of the development and evolution of the neocortex. Annual Review of Cell and Developmental Biology, 30, 465-502. [PubMan] : Wong, F. K., Haffner, C., Huttner, W. B., & Taverna, E. (2014). Microinjection of membrane-impermeable molecules into single neural stem cells in brain tissue. Nature Protocols, 9(5), 1170-1182. [PubMan] : Taverna, E., Haffner, C., Pepperkok, R., & Huttner, W. B. (2012). A new approach to manipulate the fate of single neural stem cells in tissue. Nature Neuroscience, 15(2), 329-337. [PubMan] : Taverna, E., & Huttner, W. B. (2010). Neural progenitor nuclei IN motion. Neuron, 67(6), 906-914. [PubMan]