Anne Sinning
University of Mainz
15 Papers
23 Citations
Anne Sinning is an academic researcher from University of Mainz. The author has contributed to research in topics: Neocortex & Premovement neuronal activity. The author has an hindex of 8, co-authored 15 publications.
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Papers
Spontaneous Neuronal Activity in Developing Neocortical Networks: From Single Cells to Large-Scale Interactions.
Heiko J. Luhmann,Anne Sinning,Jenq-Wei Yang,Vicente Reyes-Puerta,Maik C. Stüttgen,Sergei Kirischuk,Werner Kilb +6 more
TL;DR: Early spontaneous activity patterns control the formation of developing networks in sensory cortices, and disturbances of these activity patterns may lead to long-lasting neuronal deficits.
Modulation of Neocortical Development by Early Neuronal Activity: Physiology and Pathophysiology.
TL;DR: Functional impacts of classical neurotransmitters and modulatory systems on early neuronal activities in the neocortex with special emphasis on electrical synapses, nonsynaptic and synaptic currents are described.
Comparison of spike parameters from optically identified GABAergic and glutamatergic neurons in sparse cortical cultures
TL;DR: Despite of the detailed characterization of spike waveform and temporal spiking properties, it is suggested that under in vitro conditions cellular classifications of single neurons on the basis of their extracellular firing properties should be treated with caution.
Early GABAergic circuitry in the cerebral cortex.
TL;DR: In the cerebral cortex GABAergic signaling plays an important role in regulating early developmental processes, for example, neurogenesis, migration and differentiation, and becomes more important in synchronizing neuronal network activity.
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Optogenetically Controlled Activity Pattern Determines Survival Rate of Developing Neocortical Neurons
I. Emeline Wong Fong Sang,Jonas Schroer,Lisa Halbhuber,Davide Warm,Jenq-Wei Yang,Heiko J. Luhmann,Werner Kilb,Anne Sinning +7 more
TL;DR: In this article, the authors demonstrate that the temporal pattern of action potentials is critical for neuronal survival versus cell death fate during cortical development, besides the pro-survival effect of activity potential firing per se.
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