Elsevier

Neuroscience

Volume 323, 26 May 2016, Pages 1-2
Neuroscience

Editorial
Introduction to the special issue: Dynamic and metabolic interactions between astrocytes and neurons

https://doi.org/10.1016/j.neuroscience.2016.02.062Get rights and content

References (19)

  • Benjamin Kacerovsky J, Murai KK (2016) Stargazing: Monitoring subcellular dynamics of brain astrocytes. Neuroscience...
  • Bribián A, Figueres-Oñate M, Martín-López E, López-Mascaraque L (2016) Decoding astrocyte heterogeneity: New tools for...
  • Covelo A, Araque A (2016) Lateral regulation of synaptic transmission by astrocytes. Neuroscience...
  • De Pittà M, Brunela N, Volterra A (2016) Astrocytes: Orchestrating synaptic plasticity? Neuroscience...
  • Filosa JA, Morrison HW, Iddings JA, Du W, Kim KJ (2016) Beyond neurovascular coupling, role of astrocytes in the...
  • Freitas-Andrade M, Naus CC (2016) Astrocytes in neuroprotection and neurodegeneration: The role of connexin43 and...
  • Ge W-P, Jia J-M (2016) Local production of astrocytes in the cerebral cortex. Neuroscience...
  • Leloup C, Allard C, Carneiro L, Fioramonti X, Collins S, Pénicaud L (2016) Glucose and hypothalamic astrocytes: More...
  • Oliveira da Cruz JF, Robin LM, Drago F, Marsicano G, Metna-Laurent M (2016) Astroglial type-1 cannabinoid receptor...
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