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Jump to: Yes YesKempf, Anissa and Song, Seoho M. and Talbot, Clifford B. and Miesenböck, Gero. (2019) A potassium channel β-subunit couples mitochondrial electron transport to sleep. Nature, 568 (7751). pp. 230-234. Donlea, Jeffrey M. and Pimentel, Diogo and Talbot, Clifford B. and Kempf, Anissa and Omoto, Jaison J. and Hartenstein, Volker and Miesenböck, Gero. (2018) Recurrent Circuitry for Balancing Sleep Need and Sleep. Neuron, 97 (2). pp. 378-389.e4. Kempf, Anissa and Boda, Enrica and Kwok, Jessica C. F. and Fritz, Rafael and Grande, Valentina and Kaelin, Andrea M. and Ristic, Zorica and Schmandke, Andre and Schmandke, Antonio and Tews, Bjoern and Fawcett, James W. and Pertz, Olivier and Buffo, Annalisa and Schwab, Martin E.. (2017) Control of Cell Shape, Neurite Outgrowth, and Migration by a Nogo-A/HSPG Interaction. Developmental Cell, 43 (1). pp. 24-34.e5. Kempf, Anissa and Tews, Bjoern and Arzt, Michael E. and Weinmann, Oliver and Obermair, Franz J. and Pernet, Vincent and Zagrebelsky, Marta and Delekate, Andrea and Iobbi, Cristina and Zemmar, Ajmal and Ristic, Zorica and Gullo, Miriam and Spies, Peter and Dodd, Dana and Gygax, Daniel and Korte, Martin and Schwab, Martin E.. (2014) The sphingolipid receptor S1PR2 is a receptor for Nogo-a repressing synaptic plasticity. PLoS Biology, 12 (1). e1001763. Kempf, Anissa and Montani, Laura and Petrinovic, Marija M. and Schroeter, Aileen and Weinmann, Oliver and Patrignani, Andrea and Schwab, Martin E.. (2013) Upregulation of axon guidance molecules in the adult central nervous system of Nogo-A knockout mice restricts neuronal growth and regeneration. European Journal of Neuroscience, 38 (11). pp. 3567-3579. Kempf, Anissa and Schwab, Martin E.. (2013) Nogo-A represses anatomical and synaptic plasticity in the central nervous system. Physiology (Bethesda, Md.), 28 (3). pp. 151-163. Montani, Laura and Gerrits, Bertran and Gehrig, Peter and Kempf, Anissa and Dimou, Leda and Wollscheid, Bernd and Schwab, Martin E.. (2009) Neuronal Nogo-A modulates growth cone motility via Rho-GTP/LIMK1/cofilin in the unlesioned adult nervous system. Journal of Biological Chemistry, 284 (16). pp. 10793-10807. |