Astrocytic glutamate uptake is slow and does not limit neuronal NMDA receptor activation in the neonatal neocortex
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Title
Astrocytic glutamate uptake is slow and does not limit neuronal NMDA receptor activation in the neonatal neocortex
Authors
Keywords
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Journal
GLIA
Volume 63, Issue 10, Pages 1784-1796
Publisher
Wiley-Blackwell
Online
2015-04-27
DOI
10.1002/glia.22844
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- (2013) Megan M. Corty et al. JOURNAL OF CELL BIOLOGY
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- (2013) Laura E. Clarke et al. NATURE REVIEWS NEUROSCIENCE
- NMDA receptor subunit diversity: impact on receptor properties, synaptic plasticity and disease
- (2013) Pierre Paoletti et al. NATURE REVIEWS NEUROSCIENCE
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- (2012) Silvia Holmseth et al. JOURNAL OF HISTOCHEMISTRY & CYTOCHEMISTRY
- The Density of EAAC1 (EAAT3) Glutamate Transporters Expressed by Neurons in the Mammalian CNS
- (2012) S. Holmseth et al. JOURNAL OF NEUROSCIENCE
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- The Relative Roles of Diffusion and Uptake in Clearing Synaptically Released Glutamate Change during Early Postnatal Development
- (2011) C. G. Thomas et al. JOURNAL OF NEUROSCIENCE
- Glutamate induces de novo growth of functional spines in developing cortex
- (2011) Hyung-Bae Kwon et al. NATURE
- Glutamine Is Required for Persistent Epileptiform Activity in the Disinhibited Neocortical Brain Slice
- (2010) H. Tani et al. JOURNAL OF NEUROSCIENCE
- Specification and Morphogenesis of Astrocytes
- (2010) M. R. Freeman SCIENCE
- TWIK-1 and TREK-1 Are Potassium Channels Contributing Significantly to Astrocyte Passive Conductance in Rat Hippocampal Slices
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- Analysis of Astroglial K+ Channel Expression in the Developing Hippocampus Reveals a Predominant Role of the Kir4.1 Subunit
- (2009) G. Seifert et al. JOURNAL OF NEUROSCIENCE
- Early NMDA receptor-driven waves of activity in the developing neocortex: physiological or pathological network oscillations?
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- The concentrations and distributions of three C-terminal variants of the GLT1 (EAAT2; slc1a2) glutamate transporter protein in rat brain tissue suggest differential regulation
- (2009) S. Holmseth et al. NEUROSCIENCE
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- (2008) C. Allene et al. JOURNAL OF NEUROSCIENCE
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