A long-standing question in neurobiology is whether astrocytes respond to the neuronal release of neurotransmitter
Astrocytes spontaneously release glutamate as a gliotransmitter (GT) resulting in the generation of ...
Astrocytes spontaneously release glutamate (Glut) as a gliotransmitter (GT), resulting in the genera...
In the central nervous system, astrocytes form an intimately connected network with neurons, and the...
A long-standing question in neurobiology is whether astrocytes respond to the neuronal release of ne...
Astrocytes play active roles in brain physiology. They respond to neurotransmitters and modulate neu...
Astrocytes undergo elevations in intracellular calcium following activation of metabotropic receptor...
In the past 15 years the classical view that astrocytes play a relatively passive role in brain func...
International audienceNeuron-astrocyte communication is an important regulatory mechanism in various...
For many years, astrocytes and oligodendrocytes were considered the inert partners of neurons in the...
Neuron-astrocyte communication is an important regulatory mechanism in various brain functions but i...
Although glial cells have been traditionally viewed as supportive partners of neurons, studies of th...
Astrocytes, the major glial cell type in the CNS, have been considered to be passive bystanders t...
The discovery of direct communication between astrocytes and neurons has changed the perception of ...
SummaryAstrocytes are considered the third component of the synapse, responding to neurotransmitter ...
Astroglia is a main type of brain neuroglia, which includes many cell sub-types that differ in their...
Astrocytes spontaneously release glutamate as a gliotransmitter (GT) resulting in the generation of ...
Astrocytes spontaneously release glutamate (Glut) as a gliotransmitter (GT), resulting in the genera...
In the central nervous system, astrocytes form an intimately connected network with neurons, and the...
A long-standing question in neurobiology is whether astrocytes respond to the neuronal release of ne...
Astrocytes play active roles in brain physiology. They respond to neurotransmitters and modulate neu...
Astrocytes undergo elevations in intracellular calcium following activation of metabotropic receptor...
In the past 15 years the classical view that astrocytes play a relatively passive role in brain func...
International audienceNeuron-astrocyte communication is an important regulatory mechanism in various...
For many years, astrocytes and oligodendrocytes were considered the inert partners of neurons in the...
Neuron-astrocyte communication is an important regulatory mechanism in various brain functions but i...
Although glial cells have been traditionally viewed as supportive partners of neurons, studies of th...
Astrocytes, the major glial cell type in the CNS, have been considered to be passive bystanders t...
The discovery of direct communication between astrocytes and neurons has changed the perception of ...
SummaryAstrocytes are considered the third component of the synapse, responding to neurotransmitter ...
Astroglia is a main type of brain neuroglia, which includes many cell sub-types that differ in their...
Astrocytes spontaneously release glutamate as a gliotransmitter (GT) resulting in the generation of ...
Astrocytes spontaneously release glutamate (Glut) as a gliotransmitter (GT), resulting in the genera...
In the central nervous system, astrocytes form an intimately connected network with neurons, and the...
DOI
Add to ORKG