Journal article
Regulating neural proliferation in the Drosophila CNS
R Sousa-Nunes, LY Cheng, AP Gould
Current Opinion in Neurobiology | CURRENT BIOLOGY LTD | Published : 2010
Abstract
Neural stem and progenitor cells generate the central nervous system (CNS) in organisms as diverse as insects and mammals. In Drosophila, multipotent asymmetrically dividing progenitors called neuroblasts produce neurons and glia throughout the developing CNS. Nevertheless, the time-windows of mitotic activity, the division modes, the termination mechanisms and the lineage sizes of individual neuroblasts all vary considerably from region-to-region. Recent studies shed light on some of the mechanisms underlying this neuroblast diversity and, in particular, how proliferation is boosted in two brain regions. In the central brain, some specialised neuroblasts generate intermediate neural progeni..
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Awarded by Medical Research Council
Funding Acknowledgements
We apologise to those of our colleagues whose work was not cited owing to space constraints. We thank Iris Salecker, Andrea Brand and an anonymous reviewer for critical reading of the manuscript and Wai Han Yau for help with illustrations. R.S-N., L.Y.C. and A.P.G. are supported by the Medical Research Council and a grant to R.S-N. from the Portuguese Foundation for Science and Technology.