Prof. Dr. Arno Müller

Fachgebietsleiter Entwicklungsgenetik

Universität Kassel
FB 10 / Institut für Biologie
Fachgebiet Entwicklungsgenetik
Heinrich-Plett-Straße 40
34132 Kassel
IBC, 2403

nach Vereinbarung

Publikationen  (Prof. Dr. Arno Müller)

Rumpf, M., Pautz, S., Drebes, B., Herberg, F.W., Müller, H.-A., 2023. Microtubule-Associated Serine/Threonine (MAST) Kinases in Development and Disease. International Journal of Molecular Sciences 24, 11913.
Langlands, A., Beati, S.A.H., Müller, H.-A., 2023. SILAC-Based Quantitative Proteomic Analysis of Drosophila Embryos. Methods in molecular biology (Clifton, N.J.) 2603, 187–198.
Chandran, L., Backer, W., Schleutker, R., Kong, D., Beati, S.A.H., Luschnig, S., Müller, H.-A., 2023. Src42A is required for E-cadherin dynamics at cell junctions during Drosophila axis elongation. Development (Cambridge, England) 150, TBD.
Ziegler, H., Gimbel, K., Bothor, J.-M., Ziepprecht, K., Meier, M., Müller, H.-A., 2021. Das Schüler- und Öffentlichkeitslabor Science Bridge als Lehr-Lern-Labor, in: Bosse, D., Wodzinski, R., Griesel, C. (Hrsg.), Lehr-Lern-Labore der Universität Kassel - Forschungsbasierte Verknüpfung von Theorie und Praxis unter dem Aspekt der kognitiven Aktivierung. Kassel university press, Kassel, S. 48–65.
Aakhte, M., Müller, H.-A., 2021. Multiview tiling light sheet microscopy for 3D high-resolution live imaging. Development 148, dev199725.
D’Ignazio, L., Shakir, D., Batie, M., Müller, H.-A., Rocha, S., 2020. HIF-1β Positively Regulates NF-κB Activity via Direct Control of TRAF6. International Journal of Molecular Sciences 21, 3000.
Gheisari, E., Aakhte, M., Müller, H.-A., 2020. Gastrulation in Drosophila melanogaster: Genetic control, cellular basis and biomechanics. Mechanisms of Development 163, 103629.
Müller, H.-A., Winklbauer, R., 2020. Editorial for special issue “Gastrulation: from transcriptional patterning to morphogenetic movement”. Mechanisms of Development 164, 103643.
Liu, B., Gregor, I., Müller, H.-A., Großhans, J., 2020. Fluorescence fluctuation analysis reveals PpV dependent Cdc25 protein dynamics in living embryos. PLoS Genetics 16, e1008735.
Castillo, U. del, Müller, H.-A., Gelfand, V.I., 2020. Kinetochore protein Spindly controls microtubule polarity in Drosophila axons. Proceedings of the National Academy of Sciences of the United States of America 117, 12155–12163.
Beati, S.A.H., Langlands, A., ten Have, S., Müller, H.-A., 2019. SILAC-based quantitative proteomic analysis of Drosophila gastrula stage embryos mutant for fibroblast growth factor signaling. Fly 1–19.
Aakhte, M., Akhlaghi, E.A., Müller, H.-A., 2018. SSPIM: a beam shaping toolbox for structured selective plane illumination microscopy. Scientific Reports 8, 10067.
Clemente, G.D., Hannaford, M.R., Beati, S.A.H., Kapp, K., Januschke, J., Griffis, E.R., Müller, H.-A., 2018. Requirement of the Dynein-Adaptor Spindly for Mitotic and Post-Mitotic Functions in Drosophila. Journal of Developmental Biology 6, 9.
Müller, H.-A., 2018. More diversity in epithelial cell polarity: A fruit flies’ gut feeling. PLOS Biology 16, e3000082.
Mariappa, D., Zheng, X., Schimpl, M., Raimi, O., Ferenbach, A.T., Müller, H.-A., van Aalten, D.M.F., 2015. Dual functionality of O-GlcNAc transferase is required for Drosophila development. Open Biology 5, 150234.
Bandarra, D., Biddlestone, J., Mudie, S., Müller, H.-A., Rocha, S., 2015. HIF-1 alpha restricts NF-kappa B-dependent gene expression to control innate immunity signals. Disease Models and Mechanisms 8, 169–181.
Hain, D., Langlands, A., Sonnenberg, H.C., Bailey, C., Bullock, S.L., Müller, H.-A., 2014. The Drosophila MAST kinase Drop out is required to initiate membrane compartmentalisation during cellularisation and regulates dynein-based transport. Development 141, 2119–2130.
Bandarra, D., Biddlestone, J., Mudie, S., Müller, H.-A., Rocha, S., 2014. Hypoxia activates IKK-NF-kappa B and the immune response in Drosophila melanogaster. Bioscience Reports 34, e00127429–440.
Radermacher, P.T., Myachina, F., Bosshardt, F., Pandey, R., Mariappa, D., Mueller, H.-A.J., Müller, H.-A., Lehner, C.F., 2014. O-GlcNAc reports ambient temperature and confers heat resistance on ectotherm development. Proceedings of the National Academy of Sciences 111, 5592–5597.
Muha, V., Müller, H.-A., 2013. Functions and Mechanisms of Fibroblast Growth Factor (FGF) Signalling in Drosophila melanogaster. International Journal of Molecular Sciences 14, 5920–5937.
Clark, I.B.N., Muha, V., Klingseisen, A., Leptin, M., Müller, H.-A., 2011. Fibroblast growth factor signalling controls successive cell behaviours during mesoderm layer formation in Drosophila. Development 138, 2705–2715.
Mariappa, D., Sauert, K., Marino, K., Turnock, D., Webster, R., van Aalten, D.M.F., Ferguson, M.A.J., Müller, H.-A., 2011. Protein O-GlcNAcylation Is Required for Fibroblast Growth Factor Signaling in Drosophila. Science Signaling 4, ra89.
Winklbauer, R., Müller, H.-A., 2011. Mesoderm layer formation in Xenopus and Drosophila gastrulation. PHYSICAL BIOLOGY 8, 045001.
Van Uden, P., Kenneth, N.S., Webster, R., Müller, H.-A., Mudie, S., Rocha, S., 2011. Evolutionary Conserved Regulation of HIF-1 beta by NF-kappa B. Public Library of Science Genetics 7, e1001285.
Haines, D., Bettencourt, B., Okamura, K., Csorba, T., Meyer, W., Jin, Z., Biggerstaff, J., Siomi, H., Hutvagner, G., Lai, E.C., Welte, M., Müller, H.-A., 2010. Natural Variation of the Amino-Terminal Glutamine-Rich Domain in Drosophila Argonaute2 Is Not Associated with Developmental Defects. PLoS ONE 5, e15264.
Müller, H.-A., Kessler, T., 2009. Cleavage of Armadillo/beta-catenin by the caspase DrICE in Drosophila apoptotic epithelial cells. BMC Developmental Biology 9, 15.
Müller, H.-A., Klingseisen, A., Clark, I.B.N., Gryzik, T., 2009. Differential and overlapping functions of two closely related Drosophila FGF8-like growth factors in mesoderm development. Development 136, 2393–2402.
Van Impel, A., Schumacher, S., Draga, M., Herz, H.-M., Grosshans, J., Müller, H.-A., 2009. Regulation of the Rac GTPase pathway by the multifunctional Rho GEF Pebble is essential for mesoderm migration in the Drosophila gastrula. Development 136, 813–822.
Müller, H.-A., 2008. Immunolabeling of Embryos, in: Dahmann, C. (Hrsg.), Drosophila. Humana Press, Totowa, NJ, S. 207–218.
Schäfer, G., Weber, S., Holz, A., Bogdan, S., Schumacher, S., Müller, H.-A., Renkawitz-Pohl, R., Onel, S.-F., 2007. The Wiskott-Aldrich syndrome protein (WASP) is essential for myoblast fusion in Drosophila. Developmental Biology 304, 664–674.
Meyer, W.J., Schreiber, S., Guo, Y., Volkmann, T., Welte, M.A., Müller, H.-A., 2006. Overlapping functions of argonaute proteins in patterning and morphogenesis of Drosophila embryos. PLoS Genetics 2, e1341224–1239.
Grosshans, J., Wenzl, C., Herz, H., Bartoszewski, S., Schnorrer, F., Schwarz, H., Müller, H.-A., 2005. RhoGEF2 and the formin dia control the formation of the furrow canal by directed actin assembly during Drosphila cellularisation. Development 132, 1009–1020.
Schuhmacher, S., Gryzik, T., Tannebaum, S., Müller, H.-A., 2004. The RhoGEF Pebble is required for cell shape changes during cell migration triggered by the Drosophila FGF receptor Heartless. Development 131, 2631–2640.
Gryzik, T., Müller, H.-A., 2004. FGF8-like1 and FGF8-like2 Encode Putative Ligands of the FGF Receptor Htl and Are Required for Mesoderm Migration in the Drosophila Gastrula. Current Biology 14, 659–667.
Müller, H.-A., Yoshida, S., Wodarz, A., Ephrussi, A., 2004. PKA-R1 spatially restricts Oskar expression for Drosophila embryonic patterning. Development 131, 1401–1410.
Müller, H.-A., 2003. Epithelial polarity in flies: More than just crumbs. Developmental Cell 4, 1–3.
Müller, H.-A., Bossinger, O., 2003. Molecular networks controlling epithelial cell polarity in development. Mechanisms of Development 120, 1231–1256.
Grosshans, J., Müller, H.-A., Wieschaus, E., 2003. Control of cleavage cycles in Drosophila embryos by fruhstart. Developmental Cell 5, 285–294.
Müller, H.-A., 2002. Germ cell migration: As slow as molasses. Current Biology 12, R612–R614.
Yoo, S., Huh, J., Muro, I., Yu, H., Wang, L., Wang, S., Feldman, R., Clem, R., Müller, H.-A., Hay, B., 2002. Apoptosis inducers Hid, Rpr and Grim negatively regulate levels of the caspase inhibitor DIAP1 by distinct mechanisms. Nature Cell Biology 4, 416–424.
Tang, A., Neufeld, T., Rubin, G., Müller, H.-A., 2001. Transcriptional regulation of cytoskeletal functions and segmentation by a novel maternal pair-rule gene, lilliputian. Development 128, 801–813.
Müller, H.-A., 2001. Of mice, frogs and flies: Generation of membrane asymmetries in early development. Development, Growth and Differentiation 43, 327–342.
Tang, A., Neufeld, T., Rubin, G., Müller, H.-A., 2000. Lilliputian is required for cellularization and cell size regulation during Drosophila development, Molecular Biology of the Cell. AMER SOC CELL BIOLOGY.
Wang, S., Hawkins, C., Yoo, S., Müller, H.-A., Hay, B., 1999. The Drosophila caspase inhibitor DIAP1 is essential for cell survival and is negatively regulated by HID. Cell 98, 453–463.
Knust, E., Müller, H.-A., 1998. Drosophila morphogenesis: Orchestrating cell rearrangements. Current Biology 8, R853–R855.
Müller, H.-A., Wieschaus, E., 1996. armadillo, bazooka, and stardust are critical for early stages in formation of the zonula adherens and maintenance of the polarized blastoderm epithelium in Drosophila. Journal of Cell Biology 134, 149–163.
Müller, H.-A., Hausen, P., 1995. Epithelial cell polarity in early Xenopus development. Developmental Dynamics 202, 420405.
Redies, C., Müller, H.-A., 1994. Similarities in structure and expression between mouse P-cadherin, chicken B-cadherin and frog XB/U-cadherin. CELL ADHESION AND COMMUNICATION 2, 511–520.
Müller, H.-A., Kuhl, M., Finnemann, S., Schneider, S., Vanderpoel, S., Wedlich, D., Hausen, P., 1994. Xenopus cadherins: the maternal pool comprises distinguishable members of the family. Mechanisms of Development 47, 213–223.
Müller, H.-A., Gawantka, V., Ding, X., Hausen, P., 1993. Maturation induced internalization of Beta(1)-Integrin by xenopus-occyties and formation of the maternal integrin pool. Mechanisms of Development 42, 77–88.
Müller, H.-A., 1992. Zur Regulation materneller Membranproteine in der Oogenese und der Oocytenreifung von Xenopus laevis in Hinblick auf die Enstehung apikobasolateraler Zellpolarität im frühen Embryo. Verlag Shaker, Aachen.
Angres, B., Müller, H.-A., Kellermann, J., Hausen, P., 1991. Differential expression of two cadherins in Xenopus laevis. Development 111, 829–844.
Dircksen, H., Müller, H.-A., Keller, R., 1991. Crustacean cardioactive peptide in the nervous system of the locust, Locusta migratoria: an immunocytochemical study on the ventral nerve cord and peripheral innervation. Cell and Tissue Research 263, 439–457.