2019
DOI: 10.1002/stem.3071
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Contributions of Single-Cell Approaches for Probing Heterogeneity and Dynamics of Neural Progenitors Throughout Life: Concise Review

Abstract: Development of the forebrain occurs in a stepwise manner from a pool of neural progenitors (NPs), which differs over space and time to produce distinct progenies. The sequence of events leading to the generation of the exquisite complexity of cell types that compose this tissue has been described in great detail at the population level. Recent advances in histology and transcriptomics have allowed probing spatial and temporal heterogeneity and dynamics of NPs at the single-cell level. Clonal fate mapping studi… Show more

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Cited by 6 publications
(8 citation statements)
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“…We described mixed clones composed of two different glial cell types. Uniform and mixed glial clones confirmed the existence of monopotent and bipotent pallial RGC progenitors in the VZ at E14 [1,16,[60][61][62][63]. Histological analyses, cell transplantations, and in vitro studies have claimed progressive competence restriction of progenitors, being multipotent at earlier stages and reducing their cell potential with development [21,22].…”
Section: Discussionmentioning
confidence: 71%
“…We described mixed clones composed of two different glial cell types. Uniform and mixed glial clones confirmed the existence of monopotent and bipotent pallial RGC progenitors in the VZ at E14 [1,16,[60][61][62][63]. Histological analyses, cell transplantations, and in vitro studies have claimed progressive competence restriction of progenitors, being multipotent at earlier stages and reducing their cell potential with development [21,22].…”
Section: Discussionmentioning
confidence: 71%
“…The heterogeneous nature of adult NSCs, at the ontogenetic, morphological, physiological, cellular and transcriptional levels, is increasingly appreciated (recently reviewed in). [ 30–33 ] Among these, genetic lineage tracing has captured molecular heterogeneities, which could notably reflect commitment differences, sub‐lineages, or dynamic transient states “frozen” at the time of Cre induction. These will now need to be integrated into a global dynamic model of NSC pool evolution.…”
Section: Quantitative Dynamics Of Adult Neural Stem Cell Pools Suggests Maintenance Through Feedback Mechanisms and Dynamic Homeostasismentioning
confidence: 99%
“…Single cell analysis provides new insight into the development of the forebrain and the changes it undergoes in the adult. Clonal and transcriptomic analyses make it possible to explore the huge heterogeneity of neural cells [24,32,43,44]. Indeed, the heterogeneity of cortical progenitor cells was recently reported, showing the cell lineage of cortical pyramidal cells restricted to either the deep or superficial layers [39], suggesting that the heterogeneity of neocortical progenitor cells is greater than that previously thought [45][46][47].…”
Section: Discussionmentioning
confidence: 99%