[HTML][HTML] Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells.
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - europepmc.org
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - pubmed.ncbi.nlm.nih.gov
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - ideas.repec.org
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
[HTML][HTML] Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - ncbi.nlm.nih.gov
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - econpapers.repec.org
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell, J Vallée… - Nature …, 2018 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Astrocytes are important regulators of
excitatory synaptic networks. However, astrocytes regulation of inhibitory synaptic systems …
excitatory synaptic networks. However, astrocytes regulation of inhibitory synaptic systems …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - ui.adsabs.harvard.edu
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells.
M Matos, A Bosson, I Riebe, C Reynell… - Nature …, 2018 - search.ebscohost.com
Astrocytes are important regulators of excitatory synaptic networks. However, astrocytes
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
regulation of inhibitory synaptic systems remains ill defined. This is particularly relevant …
[PDF][PDF] Astrocytes detect and upregulate transmission at inhibitory synapses of somatostatin interneurons onto pyramidal cells
M Matos, A Bosson, I Riebe, C Reynell… - NATURE …, 2018 - researchgate.net
Results A1R upregulates inhibition of pyramidal cells by SOM-INs. We examined the
implication of astrocytes at dendritic inhibitory synapses onto CA1 pyramidal cells using a …
implication of astrocytes at dendritic inhibitory synapses onto CA1 pyramidal cells using a …