Add to ORKGIn the eukaryotic central nervous system (CNS), multi-potential neural progenitor cells undergo a series of asymmetric cell divisions to self-renew and to generate several rounds of neurons of distinct identities. Thus, a complex array of different types of neurons i
The establishment of a diversity of neuronal cell types in the central nervous system requires compl...
Robust brain development requires the tight coordination between tissue growth, neuronal differentia...
The switch of neural stem and progenitor cells from proliferation to differentiation during developm...
In the eukaryotic central nervous system (CNS), multi-potential neural progenitor cells undergo a se...
The central nervous system continuously perceives, integrates, processes and generates information. ...
The central nervous system (CNS) exhibits an extraordinary diversity of neurons, with the right cell...
During embryogenesis, multipotent neuroepithelial precursor cells originate specialized neurons and ...
Several decades of intense research provided us with a grand framework describing the emergence of n...
The central question of developmental biology is how one cell divides to produce two different daugh...
AbstractA key question in developmental neurobiology is how the diversity of cell types that make up...
One of the longstanding goals of neurobiologists is to describe, in molecular terms, how a neural pr...
The central nervous system (CNS) begins as a population of neural progenitor cells that will give ri...
The developing central nervous system (CNS) is partitioned into many compartments, which form units ...
2012-11-19On the most basic level, an asymmetric division is a developmental process that produces t...
Neurons of the mammalian CNS are thought to originate from progenitors dividing at the apical surfac...
The establishment of a diversity of neuronal cell types in the central nervous system requires compl...
Robust brain development requires the tight coordination between tissue growth, neuronal differentia...
The switch of neural stem and progenitor cells from proliferation to differentiation during developm...
In the eukaryotic central nervous system (CNS), multi-potential neural progenitor cells undergo a se...
The central nervous system continuously perceives, integrates, processes and generates information. ...
The central nervous system (CNS) exhibits an extraordinary diversity of neurons, with the right cell...
During embryogenesis, multipotent neuroepithelial precursor cells originate specialized neurons and ...
Several decades of intense research provided us with a grand framework describing the emergence of n...
The central question of developmental biology is how one cell divides to produce two different daugh...
AbstractA key question in developmental neurobiology is how the diversity of cell types that make up...
One of the longstanding goals of neurobiologists is to describe, in molecular terms, how a neural pr...
The central nervous system (CNS) begins as a population of neural progenitor cells that will give ri...
The developing central nervous system (CNS) is partitioned into many compartments, which form units ...
2012-11-19On the most basic level, an asymmetric division is a developmental process that produces t...
Neurons of the mammalian CNS are thought to originate from progenitors dividing at the apical surfac...
The establishment of a diversity of neuronal cell types in the central nervous system requires compl...
Robust brain development requires the tight coordination between tissue growth, neuronal differentia...
The switch of neural stem and progenitor cells from proliferation to differentiation during developm...