Add to ORKGThe number of neurons and glia that form during the development of the CNS is controlled by the coordination of extracellular factors, cell to cell interactions and intrinsic mechanisms that regulate neuroepithelial cell proliferation
Developing neurons send out processes that reach their targets guided mostly by extracellular cues t...
Glia and neurons, the major cell types of the nervous system, share a common precursor population, t...
Neuronal diversity in the developing central nervous system (CNS) depends on combinatorial transcrip...
Intricate and reciprocal neuron-glia interactions are essential for proper nervous system developmen...
Formation of cells in the brain is driven by the proliferation of stem cells. The stem cells then di...
Glia serve many important functions in the mature nervous system. In addition, these diverse cells h...
Glia, the major cellular components of vertebrate nervous systems, play integral roles in nervous sy...
Nervous system development involves complex extrinsic and intrinsic signaling pathways to precisely ...
This article provides a brief review of concepts of the features of the pre- and postnatal developme...
Neurons and glia are two distinct cell types that together form the nervous system. Glial cells perf...
During embryogenesis, multipotent neuroepithelial precursor cells originate specialized neurons and ...
The central nervous system (CNS) begins as a population of neural progenitor cells that will give ri...
Remarkable progress has been made in understanding how the development of anatomically and functiona...
Glial cells are not passive spectators during nervous system assembly, rather they are active partic...
Despite intense interest in the implications of ongoing hippocampal neurogenesis, the mechanisms und...
Developing neurons send out processes that reach their targets guided mostly by extracellular cues t...
Glia and neurons, the major cell types of the nervous system, share a common precursor population, t...
Neuronal diversity in the developing central nervous system (CNS) depends on combinatorial transcrip...
Intricate and reciprocal neuron-glia interactions are essential for proper nervous system developmen...
Formation of cells in the brain is driven by the proliferation of stem cells. The stem cells then di...
Glia serve many important functions in the mature nervous system. In addition, these diverse cells h...
Glia, the major cellular components of vertebrate nervous systems, play integral roles in nervous sy...
Nervous system development involves complex extrinsic and intrinsic signaling pathways to precisely ...
This article provides a brief review of concepts of the features of the pre- and postnatal developme...
Neurons and glia are two distinct cell types that together form the nervous system. Glial cells perf...
During embryogenesis, multipotent neuroepithelial precursor cells originate specialized neurons and ...
The central nervous system (CNS) begins as a population of neural progenitor cells that will give ri...
Remarkable progress has been made in understanding how the development of anatomically and functiona...
Glial cells are not passive spectators during nervous system assembly, rather they are active partic...
Despite intense interest in the implications of ongoing hippocampal neurogenesis, the mechanisms und...
Developing neurons send out processes that reach their targets guided mostly by extracellular cues t...
Glia and neurons, the major cell types of the nervous system, share a common precursor population, t...
Neuronal diversity in the developing central nervous system (CNS) depends on combinatorial transcrip...