Matthias Landgraf

Affiliations: 
University of Cambridge, Cambridge, England, United Kingdom 
Area:
Drosophila, motor system, dendrites, development
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"Matthias Landgraf"
Cross-listing: Neurotree

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Parents

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Michael Bate grad student 1992-1996 Cambridge

Children

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Maarten F. Zwart grad student Cambridge

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Publications

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Hunter I, Coulson B, Pettini T, et al. (2024) Balance of activity during a critical period tunes a developing network. Elife. 12
Sobrido-Cameán D, Oswald MCW, Bailey DMD, et al. (2023) Activity-regulated growth of motoneurons at the neuromuscular junction is mediated by NADPH oxidases. Frontiers in Cellular Neuroscience. 16: 1106593
Coulson B, Hunter I, Doran S, et al. (2022) Critical periods in neural network development: Importance to network tuning and therapeutic potential. Frontiers in Physiology. 13: 1073307
Giachello CNG, Hunter I, Pettini T, et al. (2022) Electrophysiological validation of monosynaptic connectivity between premotor interneurons and the aCC motoneuron in the larval CNS. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience
Baines RA, Landgraf M. (2021) Neural development: The role of spontaneous activity. Current Biology : Cb. 31: R1513-R1515
Giachello CNG, Fan YN, Landgraf M, et al. (2021) Nitric oxide mediates activity-dependent change to synaptic excitation during a critical period in Drosophila. Scientific Reports. 11: 20286
Dhawan S, Myers P, Bailey DMD, et al. (2021) Reactive Oxygen Species Mediate Activity-Regulated Dendritic Plasticity Through NADPH Oxidase and Aquaporin Regulation. Frontiers in Cellular Neuroscience. 15: 641802
Valdes-Aleman J, Fetter RD, Sales EC, et al. (2020) Comparative Connectomics Reveals How Partner Identity, Location, and Activity Specify Synaptic Connectivity in Drosophila. Neuron
Marin EC, Büld L, Theiss M, et al. (2020) Connectomics Analysis Reveals First-, Second-, and Third-Order Thermosensory and Hygrosensory Neurons in the Adult Drosophila Brain. Current Biology : Cb
Oswald MCW, Brooks PS, Zwart MF, et al. (2018) Reactive oxygen species regulate activity-dependent neuronal plasticity in . Elife. 7
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