Publikationen

  1. Kagermeier, T., Hauser, S., Sarieva, K., Laugwitz, L., Groeschel, S., Janzarik, W. G., Yentür, Z., Becker, K., Schöls, L., Krägeloh-Mann, I., & Mayer, S. (2024). Human organoid model of pontocerebellar hypoplasia 2a recapitulates brain region-specific size differences. Disease Models & Mechanisms, 17(7).
  2. Kutscher, L. M., Aprile, D., Bayin, N. S., Becker, E. B. E., Cerrato, V., Turrini, G., Coolen, M., Cantagrel, V., Durand, B. C., Evans II, M. K., Haldipur, P., Millen, K. J., Yeung, J., Goldowitz, D., Hatten, M. E., Joyner, A. L., Kebschull, J. M., Li, J. Y. H., Quadrato, G., … Mayer, S. (2025). Conference report: Cerebellar development and disease at single-cell resolution. Cerebellum, 24(4), 109.
  3. Mahringer, C. A. (2022). Analyzing digital trace data to promote discovery. The case of heatmapping. Lecture Notes in Business Information Processing, 436, 209–220.
  4. Mahringer, C. A. (2024). Innovating as chains of interrelated situations. Scandinavian Journal of Management, 40(1), 1–8.
  5. Mahringer, C. A., Baessler, F., Gerchen, M. F., Haak, C., Jacob, K., & Mayer, S. (2023). Benefits and obstacles of interdisciplinary research. Insights from members of the Young Academy at the Heidelberg Academy of Sciences and Humanities. iScience, 26(12), 1–6.
  6. Mahringer, C. A., Danner-Schröder, A. (In press). Autonomous, yet interdependent. Designing interfaces across routine clusters. Academy of Management Journal.
  7. Mahringer, C. A., Mayer, S. (2023). Veränderung verstehen. Die Relevanz konzeptioneller Klarheit. Athene – Magazin der HAdW, 1.
  8. Mahringer, C. A., Schmiedle, L., Albicker, L., & Mayer, S. (2025). The iceberg model of change. A taxonomy differentiating approaches to change. Heliyon, 11(2), 1–10.
  9. Mahringer, C. A., & Walleser, N. (2023). How process models change business processes in organizations. From planned to emergent change. In Proceedings of the European Conference on Information Systems.
  10. Sarieva, K., Hildebrand, F., Kagermeier, T., Yentür, Z., Becker, K., & Mayer, S. (2023). Pluripotent stem cell-derived neural progenitor cells can be used to model effects of IL-6 on human neurodevelopment. Disease Models & Mechanisms, 16(11).
  11. Sarieva, K., Kagermeier, T., Khakipoor, S., Atay, E., Yentür, Z., Becker, K., & Mayer, S. (2023). Human brain organoid model of maternal immune activation identifies radial glia cells as selectively vulnerable. Molecular Psychiatry, 1–13.
  12. Sarieva, K., Kagermeier, T., Lysenkov, V., Yentür, Z., Becker, K., Matilainen, J., Casadei, N., & Mayer, S. (2024). Comparing the impact of sample multiplexing approaches for single-cell RNA-sequencing on downstream analysis using cerebellar organoids. bioRxiv. 
  13. Sarieva, K., & Mayer, S. (2021). The effects of environmental adversities on human neocortical neurogenesis modeled in brain organoids. Frontiers in Molecular Biosciences, 8, 686410.
  14. Yentür, Z., Kagermeier, T., Sarieva, K., Jarboui, M. A., Becker, K., & Mayer, S. (2025). Human dorsal forebrain organoids show differentiation-state-specific protein secretion. iScience, 28(7), 112935.
  15. Yentür, Z., Sarieva, K., Branco, L., Kagermeier, T., Kulka, C., Jarboui, M. A., Becker, K., & Mayer, S. (2025). Multiomics analysis identifies VPA-induced changes in neural progenitor cells, ventricular-like regions, and cellular microenvironment in dorsal forebrain organoids. bioRxiv.