Researcher Portfolio
Baccaro, Lucio
Département de Sociologie, Université de Genève, Switzerland, Institute for Work and Employment Research (IWER), Massachusetts Institute for Technology (MIT), Cambridge, Mass., USA, International Institute for Labour Studies (ILO), Genève, Switzerland, Massachusetts Institute of Technology (MIT), Cambridge, MA, USA, Politische Ökonomie, MPI for the Study of Societies, Max Planck Society, Politische Ökonomie von Wachstumsmodellen, MPI for the Study of Societies, Max Planck Society, Projekte von Gastwissenschaftlern und Postdoc-Stipendiaten, MPI for the Study of Societies, Max Planck Society, STOA' - Istituto di Studi per la Direzione e Gestione di Impresa, Ercolano, Italy, Weatherhead School of Management, Case Western Reserve University, Cleveland, OH, USA
Researcher Profile
Position: Projekte von Gastwissenschaftlern und Postdoc-Stipendiaten, MPI for the Study of Societies, Max Planck Society
Position: Département de Sociologie, Université de Genève, Switzerland
Position: International Institute for Labour Studies (ILO), Genève, Switzerland
Position: Institute for Work and Employment Research (IWER), Massachusetts Institute for Technology (MIT), Cambridge, Mass., USA
Position: Weatherhead School of Management, Case Western Reserve University, Cleveland, OH, USA
Position: Massachusetts Institute of Technology (MIT), Cambridge, MA, USA
Position: Politische Ökonomie von Wachstumsmodellen, MPI for the Study of Societies, Max Planck Society
Position: STOA' - Istituto di Studi per la Direzione e Gestione di Impresa, Ercolano, Italy
Position: Politische Ökonomie, MPI for the Study of Societies, Max Planck Society
Additional IDs: ORCID:
https://orcid.org/0000-0001-6410-6179
Researcher ID: https://pure.mpg.de/cone/persons/resource/persons208776
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]