Pages that link to "Q48474469"

The following pages link to Changing requirements for Gbx2 in development of the cerebellum and maintenance of the mid/hindbrain organizer (Q48474469):

Displaying 50 items.

• Genetic subdivision of the tectum and cerebellum into functionally related regions based on differential sensitivity to engrailed proteins (Q24623627) (← links)
• The transcription factor Zfp423/OAZ is required for cerebellar development and CNS midline patterning. (Q24624584) (← links)
• The Engrailed homeobox genes determine the different foliation patterns in the vermis and hemispheres of the mammalian cerebellum (Q24633285) (← links)
• Maintenance of postmitotic neuronal cell identity (Q27010931) (← links)
• Characterization of the Gbx1-/- mouse mutant: a requirement for Gbx1 in normal locomotion and sensorimotor circuit development (Q27314901) (← links)
• β-Catenin is critical for cerebellar foliation and lamination (Q27318680) (← links)
• Molecular mechanisms underlying inner ear patterning defects in kreisler mutants (Q28504853) (← links)
• Shp2-dependent ERK signaling is essential for induction of Bergmann glia and foliation of the cerebellum (Q28506451) (← links)
• Transcription factor Gbx2 acts cell-nonautonomously to regulate the formation of lineage-restriction boundaries of the thalamus (Q28511746) (← links)
• Otx2 Requires Lmx1b to Control the Development of Mesodiencephalic Dopaminergic Neurons (Q28550104) (← links)
• The Mouse Homeobox GeneGbx2Is Required for the Development of Cholinergic Interneurons in the Striatum (Q28585998) (← links)
• Elongation factor 1 alpha1 and genes associated with Usher syndromes are downstream targets of GBX2 (Q28587839) (← links)
• Tbx1 controls cardiac neural crest cell migration during arch artery development by regulating Gbx2 expression in the pharyngeal ectoderm (Q28588434) (← links)
• Dlx5 and Dlx6 homeobox genes are required for specification of the mammalian vestibular apparatus (Q28593442) (← links)
• Genetic dissection of midbrain dopamine neuron development in vivo (Q30528530) (← links)
• In vivo Mn-enhanced MRI for early tumor detection and growth rate analysis in a mouse medulloblastoma model. (Q30618694) (← links)
• Side population cells isolated from different tissues share transcriptome signatures and express tissue-specific markers. (Q33210921) (← links)
• The role of the hindbrain in patterning of the otocyst (Q33289335) (← links)
• Analogous mechanism regulating formation of neocortical basal radial glia and cerebellar Bergmann glia (Q33758337) (← links)
• The lineage contribution and role of Gbx2 in spinal cord development (Q33941010) (← links)
• Evolutionarily conserved function of Gbx2 in anterior hindbrain development (Q34167636) (← links)
• Deletion of Porcn in mice leads to multiple developmental defects and models human focal dermal hypoplasia (Goltz syndrome) (Q34193097) (← links)
• The prepattern transcription factor Irx2, a target of the FGF8/MAP kinase cascade, is involved in cerebellum formation (Q34319564) (← links)
• Gbx2 plays an essential but transient role in the formation of thalamic nuclei (Q34442842) (← links)
• Genetic inducible fate mapping in mouse: establishing genetic lineages and defining genetic neuroanatomy in the nervous system (Q34551551) (← links)
• Multiple developmental programs are altered by loss of Zic1 and Zic4 to cause Dandy-Walker malformation cerebellar pathogenesis (Q34592548) (← links)
• Developmental origins of central norepinephrine neuron diversity (Q35056555) (← links)
• Chromatin accessibility mapping identifies mediators of basal transcription and retinoid-induced repression of OTX2 in medulloblastoma (Q35242111) (← links)
• How does Fgf signaling from the isthmic organizer induce midbrain and cerebellum development? (Q35989462) (← links)
• Impaired motor coordination and disrupted cerebellar architecture in Fgfr1 and Fgfr2 double knockout mice (Q35992010) (← links)
• Gbx2 regulates thalamocortical axon guidance by modifying the LIM and Robo codes (Q36432862) (← links)
• Engrailed is required in maturing serotonin neurons to regulate the cytoarchitecture and survival of the dorsal raphe nucleus (Q36463657) (← links)
• Duration of Shh signaling contributes to mDA neuron diversity (Q36544956) (← links)
• Dynamic temporal requirement of Wnt1 in midbrain dopamine neuron development (Q36648669) (← links)
• Distinct functions of the major Fgf8 spliceform, Fgf8b, before and during mouse gastrulation (Q36843079) (← links)
• Specific regions within the embryonic midbrain and cerebellum require different levels of FGF signaling during development. (Q36914380) (← links)
• Uncovering diversity in the development of central noradrenergic neurons and their efferents (Q36991820) (← links)
• Besides Purkinje cells and granule neurons: an appraisal of the cell biology of the interneurons of the cerebellar cortex (Q37234482) (← links)
• 22q11 deletion syndrome: a role for TBX1 in pharyngeal and cardiovascular development (Q37669766) (← links)
• Genetic control of midbrain dopaminergic neuron development. (Q38309820) (← links)
• Gbx2 directly restricts Otx2 expression to forebrain and midbrain, competing with class III POU factors. (Q38325585) (← links)
• Embryonic hindbrain patterning genes delineate distinct cardio-respiratory and metabolic homeostatic populations in the adult (Q38613290) (← links)
• Regulation of self-renewing neural progenitors by FGF/ERK signaling controls formation of the inferior colliculus (Q39437348) (← links)
• Engrailed 1 shapes the dopaminergic and serotonergic landscape through proper isthmic organizer maintenance and function (Q39605796) (← links)
• MRI analysis of cerebellar and vestibular developmental phenotypes in Gbx2 conditional knockout mice (Q40816269) (← links)
• The Temporal Contribution of the Gbx2 Lineage to Cerebellar Neurons (Q41075070) (← links)
• Function and developmental origin of a mesocortical inhibitory circuit. (Q41747304) (← links)
• SMAD4 is essential for generating subtypes of neurons during cerebellar development (Q41852146) (← links)
• The duration of Fgf8 isthmic organizer expression is key to patterning different tectal-isthmo-cerebellum structures (Q41970350) (← links)
• Cerebellar development in the absence of Gbx function in zebrafish (Q41979847) (← links)