Publications of Henrik Bringmann

Hu, Y.; Bringmann, H.: Tfap2b acts in GABAergic neurons to control sleep in mice. Scientific Reports 13, 8026 (2023)

Konietzka, J.; Fritz, M.; Spiri, S.; McWhirter, R.; Leha, A.; Palumbos, S.; Costa, W. S.; Oranth, A.; Gottschalk, A.; Miller, D. M. et al.; Hajnal, A.; Bringmann, H.: Epidermal growth factor signaling promotes sleep through a combined series and parallel neural circuit. Current Biology 30 (1), pp. 1 - 16 (2020)

Costa, W. S.; Van der Auwera, P.; Glock, C.; Liewald, J. F.; Bach, M.; Schüler, C.; Wabnig, S.; Oranth, A.; Masurat, F.; Bringmann, H. et al.; Schoofs, L.; Stelzer, E. H. K.; Fischer, S. C.; Gottschalk, A.: A GABAergic and peptidergic sleep neuron as a locomotion stop neuron with compartmentalized Ca2+dynamics. Nature Communications 10, 4095 (2019)

Bringmann, H.: Genetic sleep deprivation: Using sleep mutants to study sleep functions. EMBO Reports 20 (3), e46807 (2019)

Wu, Y.; Masurat, F.; Preis, J.; Bringmann, H.: Sleep counteracts aging phenotypes to survive starvation-induced developmental arrest in C. elegans. Current Biology 28 (22), pp. 3610 - 3624 (2018)

Spies, J. P.; Bringmann, H.: Automated detection and manipulation of sleep in C. elegans reveals depolarization of a sleep-active neuron during mechanical stimulation-induced sleep deprivation. Scientific Reports 8, 9732 (2018)

Bringmann, H.: Sleep-active neurons: Conserved motors of sleep. Genetics 208 (4), pp. 1279 - 1289 (2018)

Schwarz, J.; Bringmann, H.: Analysis of the NK2 homeobox gene ceh-24 reveals sublateral motor neuron control of left-right turning during sleep. eLife 6, e24846 (2017)

Kucherenko, M. M.; Ilangovan, V.; Herzig, A.; Shcherbata, H. R.; Bringmann, H.: TfAP-2 is required for night sleep in Drosophila. BMC Neuroscience 17, 72 (2016)

Besseling, J.; Bringmann, H.: Engineered non-Mendelian inheritance of entire parental genomes in C. elegans. Nature Biotechnology 34 (9), pp. 982 - 986 (2016)

Urmersbach, B.; Besseling, J.; Spies, J. P.; Bringmann, H.: Automated analysis of sleep control via a single neuron active at sleep onset in C. elegans. Genesis 54 (4), pp. 212 - 219 (2016)

Turek, M.; Besseling, J.; Spies, J. P.; König, S.; Bringmann, H.: Sleep-active neuron specification and sleep induction require FLP-11 neuropeptides to systemically induce sleep. eLife 5, e12499 (2016)

Turek, M.; Besseling, J.; Bringmann, H.: Agarose microchambers for long-term calcium imaging of Caenorhabditis elegans. Journal of Visualized Experiments 100, e52742 (2015)

Turek, M.; Bringmann, H.: Gene expression changes of Caenorhabditis elegans larvae during molting and sleep-like lethargus. PLoS One 9 (11), e113269 (2014)

Turek, M.; Lewandrowski, I. L.; Bringmann, H.: An AP2 transcription factor is required for a sleep-active neuron to induce sleep-like quiescence in C. elegans. Current Biology 23 (22), pp. 2215 - 2223 (2013)

Schwarz, J.; Bringmann, H.: Reduced sleep-like quiescence in both hyperactive and hypoactive mutants of the Galphaq gene egl-30 during lethargus in Caenorhabditis elegans. PLoS One 8 (9), e75853 (2013)

Bringmann, H.: G protein regulator 1 (GPR-1) localizes to cortical sites of artificial mechanical indentation in Caenorhabditis elegans zygotes. Cytoskeleton 69 (10), pp. 819 - 825 (2012)

Schwarz, J.; Spies, J. P.; Bringmann, H.: Reduced muscle contraction and a relaxed posture during sleep-like Lethargus. Worm 1 (1), pp. 1 - 3 (2012)

Schwarz, J.; Lewandrowski, I. L.; Bringmann, H.: Reduced activity of a sensory neuron during a sleep-like state in Caenorhabditis elegans. Current Biology 21 (24), pp. R983 - R984 (2011)

Bringmann, H.: Agarose hydrogel microcompartments for imaging sleep- and wake-like behavior and nervous system development in Caenorhabditis elegans larvae. Journal of Neuroscience Methods 201 (1), pp. 78 - 88 (2011)