Knowledge

Key Publications

Linneweber GA (2021)

“What makes us different – chance in brain development and its consequences for individuality.”

TheScienceBreaker 7(1). https://doi.org/10.25250/thescbr.brk451

Linneweber GA, Andriatsilavo M, Bias Dutta S, Bengochea M, Hellbruegge L, Liu G, Ejsmont RK, Straw AD, Wernet N, Hiesinger PR, Hassan BA (2020), “A neurodevelopmental origin of behavioral individuality in the Drosophila visual system” Science 367(6482), 1112-1119, DOI: 10.1126/science.aaw7182

Kiral FR, Linneweber GA, Mathejczyk T, Georgiev SV, Wernet MF, Hassan BA, von Kleist M, Hiesinger PR (2020), “Autophagy-dependent filopodial kinetics restrict synaptic partner choice during Drosophila brain wiring.” Nat Commun. 2020 Mar 12;11(1):1325. doi: 10.1038/s41467-020-14781-4.

Linneweber GA, Winking M, Fischbach KF (2015), “The Cell Adhesion Molecules Roughest, Hibris, Kin of Irre and Sticks and Stones Are Required for Long Range Spacing of the Drosophila Wing Disc Sensory Sensilla.” PLoS One. 2015 Jun 8;10(6):e0128490

Linneweber GA, Jacobson J, Busch KE, Hudry B, Christov CP, Dormann D, Yuan M, Otani T, Knust E, de Bono M, et al. (2014). “Neuronal Control of Metabolism through Nutrient-Dependent Modulation of Tracheal Branching.” Cell 156, 69-83.

Pulver S, Cognigni P, Denholm B, Fabre C, Gu W, Linneweber G, Prieto-Godino L, Urbancic V, Zwart M, Miguel-Aliaga, I (2011), “Why flies? Inexpensive public engagement exercises to explain the value of basic biomedical research on Drosophila melanogaster.” Advances in Physiology Education 35: 384-392

Publications

Gerit Linneweber on Google Scholar

2023

Dutta SB, Linneweber GA, Andriatsilavo M, Hiesinger PR, Hassan BA (2023). EGFR-dependent suppression of synaptic autophagy is required for neuronal circuit development. Current Biology 33 (3), https://doi.org/10.1016/j.cub.2022.12.039.

2022

Dutta SB, Linneweber GA., Andriatsilavo M, Hiesinger PR, Hassan BA (2022). A critical developmental interval of coupling axon branching to synaptic degradation during neural circuit formation. biorxiv, doi: https://doi.org/10.1101/2022.04.06.486606

2021

Kiral FR, Dutta SB, Linneweber GA., Hilgert S, Poppa C, Duch, C von Kleist M, Hassan BA, Hiesinger PR (2021). Brain connectivity inversely scales with developmental temperature in Drosophila. Cell reports 37 (12) DOI: 10.1016/j.celrep.2021.110145

Kohrs FE, Daumann I-M, Pavlovic B, Jin EJ, Kiral FR, Lin SC, Port F, Wolfenberg H, Mathejczyk TF, Linneweber GA, Chan C-C, Boutros M, Hiesinger PR (2021). Systematic functional analysis of Rab GTPases reveals limits of neuronal robustness to environmental challenges in flies. eLife, 2021;10:e59594 DOI: 10.7554/eLife.59594

Linneweber GA (2021) What makes us different – chance in brain development and its consequences for individuality. TheScienceBreaker 7(1). https://doi.org/10.25250/thescbr.brk451

Kiral FR, Dutta SB, Linneweber GA., Hilgert S, Poppa C, Duch, C von Kleist M, Hassan BA, Hiesinger PR (2021) “Variable brain wiring through scalable and relative synapse formation in Drosophila.” biorxiv, doi: https://doi.org/10.1101/2021.05.12.443860

2020

Kiral FR, Linneweber GA, Mathejczyk T, Georgiev SV, Wernet MF, Hassan BA, von Kleist M, Hiesinger PR (2020), “Autophagy-dependent filopodial kinetics restrict synaptic partner choice during Drosophila brain wiring.” Nat Commun. 2020 Mar 12;11(1):1325. doi: 10.1038/s41467-020-14781-4.

2019

Linneweber GA, Andriatsilavo M, Bias Dutta S, Hellbruegge L, Liu G, Ejsmont RK, Straw AD, Wernet N, Hiesinger PR, Hassan BA (2019), “A neurodevelopmental origin of behavioral individuality in the Drosophila visual system” biorxiv, ht tps://doi.org/10.1101/540880

Kiral FR, Linneweber GA, Mathejczyk T, Georgiev SV, Wernet MF, Hassan BA, von Kleist M, Hiesinger PR (2019), “Autophagy-dependent filopodial kinetics restrict synaptic partner choice during Drosophila brain wiring” biorxiv, https://doi.org/10.1101/762179

2018

Liu G, Nath T, Linneweber GA, Guo, Z, Li, Z, De Backer S, Weyn B, Sneyders M, Nicasy H, Yu P, Scheunders P, Hassan BA (2018), “A novel tracking and quantitative social network analysis pipeline reveals the effects of isolation on social interaction dynamics in Drosophila“ Plos Comp Biol. 14(8): e1006410

2017

Franco LM, Okray Z, Linneweber GA, Hassan BA, Yaksi E (2017), “Reduced Lateral Inhibition Impairs Olfactory Computations and Behaviors in a Drosophila Model of Fragile X Syndrome.” Curr Biol. 2017 Apr 24;27(8):1111-1123.

2015

2014

Linneweber GA (2014) “Interactions between the nervous, digestive and respiratory systems in Drosophila melanogaster”, Thesis University of Cambridge

Before 2014

Talsma AD, Christov CP, Terriente-Felix A, Linneweber GA, Perea D, Wayland M, Shafer OT, Miguel-Aliaga I (2012), “Remote control of renal physiology by the intestinal neuropeptide pigment-dispersing factor in Drosophila.” Proc Natl Acad Sci U S A

Linneweber GA, Christov CP, Otani T, Recasens-Zorzo C, Miguel-Aliaga I (2012) “Control of food-related behaviours and metabolism by interactions between insulin-producing neurons and the tracheal system.” Journal of neurogenetics 26, S1-S89.

Fischbach KF, Linneweber GA, Andlauer TF, Hertenstein A, Bonengel B, Chaudhary K (2009), “The irre cell recognition module (IRM) proteins.” Journal of neurogenetics 23(1):48-67

Cognigni, P., Linneweber, GA., Bailey, A., and Miguel-Aliaga, I. (2009). Development and function of visceral innervation in Drosophila. Mechanisms of Development 126, S190.

Linneweber, GA., and Fischbach, K-F (2009). IRM-proteins in wing development: Involvement in the regular spacing of sensory bristles in the anterior wing margin. Journal of neurogenetics 23, S18-S18.