Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Purpose:To asses changes in gene expression profiles from the E14.5 littermate controls LGE and Meis2-CKO mice. Methods:The LGEs from E14.5 Meis2-CKO mutant and Control brains (n = 4 per group) were dissected, and RNA was isolated with the Direct-zol RNA Miniprep kit (Zymo, catalog #R2050) following the manufacturer’s instructions. Results: Identified 161 genes with downregulated RNA expression and 94 genes with upregulated RNA expression

Project description:Purpose:To identity genomic loci where MEIS2 binds at E14.5 in the LGE Methords: The CUT&Tag assay was performed using E14.5 LGEs dissected from wild-type CD1 mice and a MEIS2 mouse polyclonal antibody as described previously. Results: We derived a set of 13992 loci based on the presence of significant enrichment in MEIS2 libraries and no enrichment in the negative control datasets

Project description:Dlx1/2-Dependent Expression of Meis2 Promotes Neuronal Fate Determination in the Mammalian Striatum

Project description:To acess chromatin accessibility of individual cell from striatum of E14.5 wild type mice.

Project description:Dlx1/2-Dependent Expression of Meis2 Promotes Neuronal Fate Determination in the Mammalian Striatum [RNA-seq]

Project description:Dlx1/2-Dependent Expression of Meis2 Promotes Neuronal Fate Determination in the Mammalian Striatum [CUT-Tag-seq]

Project description:Dlx1/2-Dependent Expression of Meis2 Promotes Neuronal Fate

Project description:Mammalian pallial (cortical and hippocampal) and striatal interneurons are both generated in the embryonic subpallium, including the medial ganglionic eminence (MGE). Herein we demonstrate that the Zfhx1b (Sip1, Zeb2) zinc finger homeobox gene is required in the MGE, directly downstream of Dlx1&2, to generate cortical interneurons that express Cxcr7, MafB, and cMaf. In its absence, Nkx2-1 expression is not repressed, and cells that ordinarily would become cortical interneurons appear to transform toward a subtype of GABAergic striatal interneurons. These results show that Zfhx1b is required to generate cortical interneurons, and suggest a mechanism for the epilepsy observed in humans with Zfhx1b mutations (Mowat-Wilson syndrome).

Project description:Progenitors within the ventral telencephalon can generate GABAergic neurons and oligodendrocytes, but regulation of the neuron-glial switch is poorly understood. We investigated the combinatorial expression and function of Dlx1&2, Olig2, and Mash1 transcription factors in the ventral telencephalon. We show that Dlx homeobox transcription factors, required for GABAergic interneuron production, repress oligodendrocyte precursor cell (OPC) formation by acting on a common progenitor to determine neuronal versus oligodendroglial cell fate acquisition. We demonstrate that Dlx1&2 negatively regulate Olig2-dependant OPC formation and that Mash1 promotes OPC formation by restricting the number of Dlx+ progenitors. Progenitors transplanted from Dlx1&2 mutant ventral telencephalon into newborn wild-type mice do not produce neurons but differentiate into myelinating oligodendrocytes that survive into adulthood. Our results identify another role for Dlx genes as modulators of neuron versus oligodendrocyte development in the ventral embryonic forebrain.