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Insights into the developmental processes during which the brain forms from the neuroepithelium may provide a deeper understanding how the brain works. The Rho family of small GTPases is known for its many cell biological functions such as regulation of the cytoskeleton, gene expression, cell migration, adhesion, cell polarity and the cell cycle. All of these functions are of importance during the formation of the cerebral neocortex, which consists of the generation of its different cell types, their migration to their destination and their maturation to a functional network. These roles have been mostly established in vitro using dominant negative or constitutively active constructs. Since these approaches are often not entirely specific for single pathways, this work used the Cre/loxP system to genetically delete an individual member of the Rho family, RhoA, to examine its role following a loss-of-function approach. Specifically, we examined a mouse line where part of the RhoA gene has been deleted by means of the Emx1::Cre mouse line. This idea is based on previous experiences with the deletion of Cdc42 in the developing neocortex, which leads to a loss of apical progenitors. RhoA often works as a functional antagonist to Cdc42. Using immunofluorescence, we could detect a loss of RhoA at embryonic day 12 (E12) in Emx1::Cre-positive offspring carrying the floxed RhoA-construct in both alleles (cKO). At E14, we detected an increase in mitotic cells to 160% (±25%, p |
