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Integrated Patterning Programs During <i>Drosophila</i> Development Generate the Diversity of Neurons and Control Their Mature Properties

Anthony Rossi, Shadi Jafari, Claude Desplan

2021Annual Review of Neuroscience31 citationsDOIOpen Access PDF

Abstract

neurogenesis (late embryogenesis to the beginning of pupation), a limited number of neural stem cells produce approximately 200,000 neurons comprising hundreds of cell types. To build a functional nervous system, neuronal types need to be produced in the proper places, appropriate numbers, and correct times. We discuss how neural stem cells (neuroblasts) obtain so-called area codes for their positions in the nervous system (spatial patterning) and how they keep time to sequentially produce neurons with unique fates (temporal patterning). We focus on specific examples that demonstrate how a relatively simple patterning system (Notch) can be used reiteratively to generate different neuronal types. We also speculate on how different modes of temporal patterning that operate over short versus long time periods might be linked. We end by discussing how specification programs are integrated and lead to the terminal features of different neuronal types.

Topics & Concepts

NeuroblastNeurogenesisNeuroscienceBiologyNervous systemNeural stem cellCell typeNeural developmentStem cellCell biologyCellGeneticsGeneNeurobiology and Insect Physiology ResearchDevelopmental Biology and Gene RegulationPlant Molecular Biology Research
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