Zhou F, Tichy AM, Imambocus BN, Sakharwade S, Jimenez FJR, Martínez MG, Jahan I, Habib M, Wilhelmy N, Burre V, Lömker T, Sauter K, Helfrich-Förster C, Pielage J, Grunwald Kadow IC, Janovjak H, Soba P (2023)
Optimized design and in vivo application of optogenetically functionalized Drosophila dopamine receptors.
Nat Commun 14(1), 8434. doi: 10.1038/s41467-023-43970-0
König S, Schmidt N, Bechberger K, Morris S, Priego M, Zaky H, Song Y, Pielage J, Brunholz S, Brady ST, Kins S, Morfini G (2023)
Axon-autonomous effects of the amyloid precursor protein intracellular domain (AICD) on kinase signaling and fast axonal transport.
Cells, 12(19): doi: 10.3390/cells12192403
Hafez OA, Escribano B, Ziegler RL, Hirtz JJ, Niebur E, Pielage J (2023)
The cellular architecture of memory modules in Drosophila supports stochastic input integration.
Elife, 12:e77578. doi: 10.7554/eLife.77578
Krämer L, Dalheimer N, Räschle M, Storchová Z, Pielage J, Boos F, Herrmann JM (2023)
MitoStores: chaperone-controlled protein granules store mitochondrial precursors in the cytosol.
EMBO J. 42(7):e112309. doi: 10.15252/embj.2022112309
Mushtaq Z, Aavula K, Lasser DA, Kieweg ID, Lion LM, Kins S, Pielage J (2022)
Madm/NRBP1 mediates synaptic maintenance and neurodegeneration-induced presynaptic homeostatic potentiation.
Cell Reports 41, 111710 doi: 10.1016/j.celrep.2022.111710
Hafez OA, Escribano B, Ziegler RL, Hirtz JJ, Niebur E, Pielage J (2021)
Dendritic signal integration in a Drosophila Mushroom Body Output Neuron (MBON) essential for learning and memory.
BioRxiv, doi: 10.1101/2020.12.06.413500
Siegenthaler D, Escribano B, Bräuler V, Pielage J (2019)
Selective suppression and recall of long-term memories in Drosophila.
PLoS Biol 17(8): e3000400
Weber T, Stephan R, Moreno E, Pielage J (2019) The ankyrin repeat domain controls presynaptic localization of Drosophila Ankyrin2 and is essential for synaptic stability.
Front. Cell Dev. Biol. | doi: 10.3389/fcell.2019.00148
Yang WK, Chueh YR, Cheng YJ, Siegenthaler D, Pielage J, Chien CT (2019)
Epidermis-Derived L1CAM Homolog Neuroglian Mediates Dendrite Enclosure and Blocks Heteroneuronal Dendrite Bundling.
Curr Biol. 29, 1445-1459.e3. doi: 10.1016/j.cub.2019.03.050
Kakad PP, Penserga T, Davis BP, Henry B, Boerner J, Riso A, Pielage J, Godenschwege TA (2018)
An ankyrin-binding motif regulates nuclear levels of L1-type neuroglian and expression of the oncogene Myc in Drosophila neurons.
J Biol Chem 293, 17442–17453. doi:10.1074/jbc.RA118.004240
Kudumala SR, Penserga T, Börner J, Slipchuk O, Kakad P, Lee LH, Qureshi A, Pielage J, Godenschwege TA (2017)
Lissencephaly-1 dependent axonal retrograde transport of L1-type CAM Neuroglian in the adult drosophila central nervous system.
PLoS One 12(8):e0183605
Schwarz O, Bohra AA, Liu X, Reichert H, VijayRaghavan K, Pielage J (2017)
Motor control of Drosophila feeding behavior.
Elife 17;6 10.7554/eLife.19892
Pielage J (2016)
Induced knockouts provide insights into human L1 syndrome.
J Exp Med 213:466
Stephan R, Goellner B, Moreno E, Frank CA, Hugenschmidt T, Genoud C, Aberle H, Pielage J (2015)
Hierarchical microtubule organization controls axonal caliber and transport and determines synaptic structure and connectivity.
Dev Cell 33:5-21
Siegenthaler D, Enneking EM, Moreno E, Pielage J (2015)
L1CAM/Neuroglian controls the axon-axon interactions establishing layered and lobular mushroom body architecture.
J Cell Biol 208:1003-1018
Bulat V, Rast M, Pielage J (2014)
Presynaptic CK2 promotes synapse organization and stability by targeting Ankyrin2.
J Cell Biol, 204:77-94
Enneking E, Kudumala SR, Moreno E, Stephan R, Boerner J, Godenschwege TA, Pielage J (2013)
Transsynaptic coordination of synaptic growth, function, and stability by the L1-type CAM neuroglian.
PLOS Biology, 11: e1001537
Pielage J*, Bulat V, Zuchero JB, Fetter RD, Davis GW* (2011)
Hts/Adducin controls synaptic elaboration and elimination.
Neuron 69:1114-1131
*corresponding authors
Frank CA*, Pielage J*, Davis GW (2009)
A presynaptic homeostatic signaling system composed of the Eph receptor, Ephexin, Cdc42 and Cav2.1 calcium channels.
Neuron 61:556-569
*equal contributions
Massaro CM, Pielage J, Davis GW (2009)
Molecular mechanisms that enhance synapse stability despite persistent disruption of the spectrin/ankyrin/microtubule cytoskeleton.
J Cell Biol 187:101-17
Pielage J, Cheng L, Fetter RD, Carlton PM, Sedat JW, Davis GW (2008)
A presynaptic giant Ankyrin stabilizes the NMJ through regulation of presynaptic microtubules and transsynaptic cell adhesion.
Neuron 58:195-209
Hülsmeier J, Pielage J, Rickert C, Technau GM, Klämbt C, Stork T (2007)
Distinct functions of alpha-Spectrin and beta-Spectrin during axonal pathfinding.
Development 134:713-722
Pielage J, Fetter RD, Davis GW (2006)
A postsynaptic spectrin scaffold defines active zone size, spacing, and efficacy at the Drosophila neuromuscular junction.
J Cell Biol 175:491-503
Pielage J, Fetter RD, Davis GW (2005)
Presynaptic spectrin is essential for synapse stabilization.
Curr Biol 15:918-928
Pielage J, Kippert A, Zhu M, Klämbt C (2004)
The Drosophila transmembrane protein Fear-of-intimacy controls glial cell migration.
Dev Biol 275:245-257
Pielage J, Stork T, Bunse I, Klämbt C (2003)
The Drosophila cell survival gene discs lost encodes a cytoplasmic Codanin-1-like protein, not a homolog of tight junction PDZ protein Patj.
Dev Cell 5:841-851
Edenfeld G, Pielage, J, Klämbt C (2002)
Cell lineage specification in the nervous system.
Curr Opin Genet Dev 12:473-477
Pielage J, Steffes G, Lau DC, Parente BA, Crews ST, Strauss R, Klämbt C (2002)
Novel behavioral and developmental defects associated with Drosophila single-minded.
Dev Biol 249:283-299
Pielage J, Klambt C (2001)
Glial cells aid axonal target selection.
Trends Neurosci 24:432-433
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