Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression
Villalba Requena A, Amberg N, Hippenmeyer S. 2023.Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression. In: Neocortical Neurogenesis in Development and Evolution. , 169–191.
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Book Chapter
| Published
| English
Scopus indexed
Book Editor
Huttner, Wieland
Department
Abstract
The cerebral cortex is comprised of a vast cell-type diversity sequentially generated by cortical progenitor cells. Faithful progenitor lineage progression requires the tight orchestration of distinct molecular and cellular mechanisms regulating proper progenitor proliferation behavior and differentiation. Correct execution of developmental programs involves a complex interplay of cell intrinsic and tissue-wide mechanisms. Many studies over the past decades have been able to determine a plethora of genes critically involved in cortical development. However, only a few made use of genetic paradigms with sparse and global gene deletion to probe cell-autonomous vs. tissue-wide contribution. In this chapter, we will elaborate on the importance of dissecting the cell-autonomous and tissue-wide mechanisms to gain a precise understanding of gene function during radial glial progenitor lineage progression.
Publishing Year
Date Published
2023-08-08
Book Title
Neocortical Neurogenesis in Development and Evolution
Publisher
Wiley
Page
169-191
IST-REx-ID
Cite this
Villalba Requena A, Amberg N, Hippenmeyer S. Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression. In: Huttner W, ed. Neocortical Neurogenesis in Development and Evolution. Wiley; 2023:169-191. doi:10.1002/9781119860914.ch10
Villalba Requena, A., Amberg, N., & Hippenmeyer, S. (2023). Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression. In W. Huttner (Ed.), Neocortical Neurogenesis in Development and Evolution (pp. 169–191). Wiley. https://doi.org/10.1002/9781119860914.ch10
Villalba Requena, Ana, Nicole Amberg, and Simon Hippenmeyer. “Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression.” In Neocortical Neurogenesis in Development and Evolution, edited by Wieland Huttner, 169–91. Wiley, 2023. https://doi.org/10.1002/9781119860914.ch10.
A. Villalba Requena, N. Amberg, and S. Hippenmeyer, “Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression,” in Neocortical Neurogenesis in Development and Evolution, W. Huttner, Ed. Wiley, 2023, pp. 169–191.
Villalba Requena A, Amberg N, Hippenmeyer S. 2023.Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression. In: Neocortical Neurogenesis in Development and Evolution. , 169–191.
Villalba Requena, Ana, et al. “Interplay of Cell‐autonomous Gene Function and Tissue‐wide Mechanisms Regulating Radial Glial Progenitor Lineage Progression.” Neocortical Neurogenesis in Development and Evolution, edited by Wieland Huttner, Wiley, 2023, pp. 169–91, doi:10.1002/9781119860914.ch10.