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Cortical Neuron Specification: It Has Its Time and Place

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1 Cortical Neuron Specification: It Has Its Time and Place
Kenneth Campbell  Neuron  Volume 46, Issue 3, Pages (May 2005) DOI: /j.neuron Copyright © 2005 Elsevier Inc. Terms and Conditions

2 Figure 1 Schematic Showing Three Progressive Stages of Corticogeneisis: Preplate Formation, Deep Layer Formation, and Upper Layer Formation The formation of the preplate (PP) requires the expression of Tbr1, whereas the generation of Cajal-Retzius (CR) neurons (brown cells) involves the suppression of Foxg1 at the earliest stages of corticogenesis. After the PP splits to form the marginal zone (MZ) and subplate (SP, green cells), deep layer (V and VI, light blue cells) neurons are generated and require the function of both Ngns and Tbr1 (at least for layer VI). At this time, Foxg1 is also required to prevent CR neuron generation in place of the deep layer neurons. When upper layer cortical neurons (II–IV, red cells) are generated, Ngns and Tbr1 appear to be dispensable, but the functions of Pax6 and Tlx are absolutely required. The specific roles of these two factors are unclear; however, they are required for the correct formation of the cortical SVZ. This secondary germinal zone is likely to play an important role in specifying upper layer identities in the late-generated cells, which can be born in either the SVZ (by symmetric division of VZ-derived progenitors) or in the VZ through asymmetric division. SVZ progenitors express a number of factors distinct from the VZ that are likely to contribute to the specification of upper layer neurons. In addition, the ventrally derived GABAergic interneurons (gray cells) that populate the SVZ represent another potential source of specifying signals. Abbreviation: IZ, intermediate zone. Neuron  , DOI: ( /j.neuron ) Copyright © 2005 Elsevier Inc. Terms and Conditions

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