Researcher Portfolio
Fill, E.
Technique, Max Planck Institute for Plasma Physics, Max Planck Society, Technology (TE), Max Planck Institute for Plasma Physics, Max Planck Society
Researcher Profile
Position: Technology (TE), Max Planck Institute for Plasma Physics, Max Planck Society
Position: Technique, Max Planck Institute for Plasma Physics, Max Planck Society
Researcher ID: https://pure.mpg.de/cone/persons/resource/persons109081
Publications
(1 - 25 of 80)
: Swanepoel, C. M., Wang, G., Zhang, L., Brändl, B., Bauer, H., Tsaytler, P., Müller, F.-J., Herrmann, B. G., & Mueller, J. L. (2025). Acquisition of ampliconic sequences marks a selfish mouse t-haplotype. bioRxiv. doi:10.1101/2025.01.28.635315. [PubMan] : Tsaytler, P., Blaess, G., Scholze-Wittler, M., Meierhofer, D., Wittler, L., Koch, F., & Herrmann, B. G. (2024). SRF promotes long-range chromatin loop formation and stem cell pluripotency. Cell Reports, 43(10): 114846. doi:10.1016/j.celrep.2024.114846. [PubMan] : Batki, J., Hetzel, S., Schifferl, D., Bolondi, A., Walther, M., Wittler, L., Grosswendt, S., Herrmann, B. G., & Meissner, A. (2024). Extraembryonic gut endoderm cells undergo programmed cell death during development. Nature Cell Biology, 26(6), 868-877. doi:doi.org/10.1038/s41556-024-01431-w. [PubMan] : Tsaytler, P., Blaess, G., Scholze-Wittler, M., Koch, F., & Herrmann, B. G. (2024). Early neural specification of stem cells is mediated by a set of SOX2-dependent neural-associated enhancers. Stem Cell Reports, 19(5), 618-628. doi:10.1016/j.stemcr.2024.03.003. [PubMan] : Schifferl, D., Scholze-Wittler, M., Villaronga Luque, A., Pustet, M., Wittler, L., Veenvliet, J. V., Koch, F., & Herrmann, B. G. (2023). Genome-wide identification of notochord enhancers comprising the regulatory landscape of the Brachyury (T) locus in mouse. Development, 150(22): dev202111. doi:10.1242/dev.202111. [PubMan] : Tsaytler, P., Liu, J., Blaess, G., Schifferl, D., Veenvliet, J. V., Wittler, L., Timmermann, B., Herrmann, B. G., & Koch, F. (2023). BMP4 triggers regulatory circuits specifying the cardiac mesoderm lineage. Development, dev.201450. doi:10.1242/dev.201450. [PubMan] : Schifferl, D., Scholze-Wittler, M., Wittler, L., Veenvliet, J. V., Koch, F., & Herrmann, B. G. (2021). A 37 kb region upstream of brachyury comprising a notochord enhancer is essential for notochord and tail development. Development, 148(23): dev200059. doi:10.1242/dev.200059. [PubMan] : Bolondi, A., Haut, L., Gassaloglu, S. I., Burton, P., Kretzmer, H., Buschow, R., Meissner, A., Herrmann, B. G., & Veenvliet, J. V. (2021). Generation of Mouse Pluripotent Stem Cell-derived Trunk-like Structures: An in vitro Model of Post-implantation Embryogenesis. Bio-protocol, 11(11): e4042. doi:10.21769/BioProtoc.4042. [PubMan] : Veenvliet, J. V., & Herrmann, B. G. (2021). Modeling mammalian trunk development in a dish. Developmental Biology, 474, 5-15. doi:10.1016/j.ydbio.2020.12.015. [PubMan] : Amaral, A., & Herrmann, B. G. (2021). RAC1 controls progressive movement and competitiveness of mammalian spermatozoa. PLoS Genetics, 17(2): e1009308. doi:10.1371/journal.pgen.1009308. [PubMan] : Farrall, A., Lienhard, M., Grimm, C., Kuhl, H., Sluka, S. H. M., Caparros Rodriguez, M., Forejt, J., Timmermann, B., Herwig, R., Herrmann, B. G., & Morkel, M. (2021). PWD/Ph-encoded genetic variants modulate the cellular Wnt/β-Catenin response to suppress ApcMin-triggered intestinal tumor formation. Cancer research: an official organ of the American Association for Cancer Research, 81(1), 38-49. doi:10.1158/0008-5472.CAN-20-1480. [PubMan] : Veenvliet, J. V., Bolondi, A., Kretzmer, H., Haut, L., Scholze-Wittler, M., Schifferl, D., Koch, F., Guignard, L., Sampath Kumar, A., Pustet, M., Heimann, S., Buschow, R., Wittler, L., Timmermann, B., Meissner, A., & Herrmann, B. G. (2020). Mouse embryonic stem cells self-organize into trunk-like structures with neural tube and somites. Science, 370(6522): eaba4937. doi:10.1126/science.aba4937. [PubMan] : Brandt, R., Sell, T., Lüthen, M., Uhlitz, F., Klinger, B., Riemer, P., Giesecke-Thiel, C., Schulze, S., El-Shimy, I. A., Kunkel, D., Fauler, B., Mielke, T., Mages, N., Herrmann, B. G., Sers, C., Blüthgen, N., & Morkel, M. (2019). Cell type-dependent differential activation of ERK by oncogenic KRAS in colon cancer and intestinal epithelium. Nature Communications, 10(1): 2919. doi:10.1038/s41467-019-10954-y. [PubMan] : Charron, Y., Willert, J., Lipkowitz, B., Kusecek, B., Herrmann, B. G., & Bauer, H. (2019). Two isoforms of the RAC-specific guanine nucleotide exchange factor TIAM2 act oppositely on transmission ratio distortion by the mouse t-haplotype. PLOS Genetics, 15(2): e1007964. doi:10.1371/journal.pgen.1007964. [PubMan] : Weitensteiner, V., Zhang, R., Bungenberg, J., Marks, M., Gehlen, J., Ralser, D. J., Hilger, A. C., Sharma, A., Schumacher, J., Gembruch, U., Merz, W. M., Becker, A., Altmüller, J., Thiele, H., Herrmann, B. G., Odermatt, B., Ludwig, M., & Reutter, H. (2018). Exome sequencing in syndromic brain malformations identifies novel mutations in ACTB, and SLC9A6, and suggests BAZ1A as a new candidate gene. Birth Defects Research, 110(7), 587-597. doi:10.1002/bdr2.1200. [PubMan] : Beisaw, A., Tsaytler, P., Koch, F., Schmitz, S. U., Melissari, M.-T., Senf, A. D., Wittler, L., Pennimpede, T., Macura, K., Herrmann, B. G., & Grote, P. (2018). BRACHYURY directs histone acetylation to target loci during mesoderm development. EMBO Reports, 19(1), 118-134. doi:10.15252/embr.201744201. [PubMan] : Koch, F., Scholze, M., Wittler, L., Schifferl, D., Sudheer, S., Grote, P., Timmermann, B., Macura, K., & Herrmann, B. G. (2017). Antagonistic Activities of Sox2 and Brachyury Control the Fate Choice of Neuro-Mesodermal Progenitors. Developmental Cell, 42, 514-526. doi:10.1016/j.devcel.2017.07.021. [PubMan] : Lange, L., Marks, M., Liu, J., Wittler, L., Bauer, H., Piehl, S., Bläß, G., Timmermann, B., & Herrmann, B. G. (2017). Pattering and gastrulation deffects caused by the tw18 lethal are due to loss of Ppp2r1a. Biology Open, 6(6), 752-764. doi:10.1242/bio.023200. [PubMan] : Riemer, P., Rydenfelt, M., Marks, M., van Eunen, K., Thedieck, K., Herrmann, B. G., Blüthgen, N., Sers, C., & Morkel, M. (2017). Oncogenic ß-catenin and PIK3CA instruct network states and cancer phenotypes in intestinal organoids. The Journal of Cell Biology: JCB, 216(6), 1567-1577. doi:10.1083/jcb.201610058. [PubMan] : Sudheer, S., Liu, J., Marks, M., Koch, F., Anurin, A., Scholze, M., Senft, A. D., Wittler, L., Macura, K., Grote, P., & Herrmann, B. G. (2016). Different Concentrations of FGF Ligands, FGF2 or FGF8 Determine Distinct States of WNT-Induced Presomitic Mesoderm. Stem Cells, 34(7), 1790-800. doi:10.1002/stem.2371. [PubMan] : Schmitz, S. U., Grote, P., & Herrmann, B. G. (2016). Mechanisms of long noncoding RNA function in development and disease. Cellular and Molecular Life Sciences, 73(13), 2491-2509. doi:10.1007/s00018-016-2174-5. [PubMan] : Marks, M., Pennimpede, T., Lange, L., Grote, P., Herrmann, B. G., & Wittler, L. (2016). Analysis of the Fam181 gene family during mouse development reveals distinct strain-specific expression patterns, suggesting a role in nervous system development and function. Gene, 575(2 Pt 2), 438-451. doi:10.1016/j.gene.2015.09.035. [PubMan] : Grote, P., & Herrmann, B. G. (2015). Long noncoding RNAs in organogenesis: Making the difference. Trends in Genetics, 31(6), 329-335. doi:10.1016/j.tig.2015.02.002. [PubMan] : Rudat, C., Grieskamp, T., Röhr, C., Airik, R., Wrede, C., Hegermann, J., Herrmann, B. G., Schuster-Gossler, K., & Kispert, A. (2014). Upk3b is dispensable for development and integrity of urothelium and mesothelium. PLoS One, 9(11): e112112. doi:10.1371/journal.pone.0112112. [PubMan] : Reutter, H., Draaken, M., Pennimpede, T., Wittler, L., Brockschmidt, F. F., Ebert, A. K., Bartels, E., Rösch, W., Boemers, T. M., Hirsch, K., Schmiedeke, E., Meesters, C., Becker, T., Stein, R., Utsch, B., Mangold, E., Nordenskjöld, A., Barker, G., Kockum, C. C., Zwink, N., Homdahl, G., Läckgren, G., Jenetzky, E., Feitz, W. F., Marcelis, C., Wijers, C. H., Van Rooij, I. A., Gearhart, J. P., Herrmann, B. G., Ludwig, M., Boyadjiev, S. A., Nöthen, M. M., & Mattheisen, M. (2014). Genome-wide association study and mouse expression data identify a highly conserved 32 kb intergenic region between WNT3 and WNT9b as possible susceptibility locus for isolated classic exstrophy of the bladder. Human Molecular Genetics, 23(20), 5536-5544. doi:10.1093/hmg/ddu259. [PubMan]