Project description:The mouse hypoglossal nerve originates from the occipital motor nuclei and projects a long distance, reaching the vicinity of the tongue primordia, the lateral lingual swelling, at E11.5. However, the details of how the hypoglossal nerve correctly projects to the primordia are not well understood. To investigate the molecular basis of hypoglossal nerve elongation, we employed cDNA microarray technology and screened for candidate genes involved in the axon guidance event.

Project description:We aimed to understand the molecular basis of muscular development in tongue. We focused on the critical stages of tongue myogenesis, namely, E10.5 (settlement of myogenic progenitors in tongue primordium), E11.5 (initiation of myoblast differentiation with the development of lateral lingual swellings). We conducted miRNA microarray analysis of the tongue primordia at E10.5 and E11.5, during which myoblast differentiation was induced as a result of the activation of muscle regulatory gene expression. The medial part of the fused mandibular prominences that corresponds to a tongue primordium were collected from E10.5 and E11.5 mouse embryos. Forty embryos for each time-point were used to obtain a pool of total RNA.

Project description:Fusion of branchial arch derivatives is an essential event in the development of craniofacial architecture. A unique feature of the mandibular arch development is medial/lateral compartmentalization for the molecular networks. Those networks give rise to multiple region-specific organs, namely teeth, a tongue, salivary glands, and the supporting matrices such as bones and cartilages. We aimed to investigate molecular networks that govern the fusion process during mouse mandibular development. To this end, cDNA microarray technology was employed for screening of spatio-temporal gene expression in developing mandibular arch from E9.7 through E11.5. We conducted to divide a mandibular arch medially and laterally to compare both gene expression. From an embryo at E10.5, a medial (M) sample of the mandibular arch was dissected out -at just the distal end of opposed lateral lingual swellings-, and the bulk of remnant lateral region was collected as (L) sample under a stereomicroscope. Forty embryos for each time-point were used to obtain a pool of total RNA.

Project description:Fusion of branchial arch derivatives is an essential event in the development of craniofacial architecture. A unique feature of the mandibular arch development is medial/lateral compartmentalization for the molecular networks. Those networks give rise to multiple region-specific organs, namely teeth, a tongue, salivary glands, and the supporting matrices such as bones and cartilages. We aimed to investigate molecular networks that govern the fusion process during mouse mandibular development. To this end, cDNA microarray technology was employed for screening of spatio-temporal gene expression in developing mandibular arch from E9.7 through E14.5.

Project description:E10.5 mouse mandibular arch cells were analyzed using 10X single-cell rna-seq

Project description:The overall goal of this project is to investigate the role of TGF-beta signaling in tissue-tissue interactions between myogenic precursors of craniofacial muscles and cranial neural crest cells (CNCCs). Here, we conducted gene expression profiling of the mandibular arch from mice at embryonic day E11.5 with a CNCC-specific conditional inactivation of the TGF-beta receptor type 1 gene Alk5. These mice provide a model of microglossia as well as disrupted extraocular and masticatory muscle development, which are congenital birth defects commonly observed in several syndromic conditions. To investigate the adverse effects of dysfunctional TGF-beta signaling on tissue-tissue interactions between CNCCs and myogenic precursors of craniofacial muscles, we analyzed mandibular arch tissue of mice with a CNCC-specific conditional inactivation of Alk5 (Wnt1-Cre; Alk5 fl/fl). We performed microarray analyses of the mandibular arch of Alk5 fl/fl control mice and Wnt1-Cre; Alk5 fl/fl mutant mice, collected at embryonic day E11.5 (n=4 per group).

Project description:We aimed to understand the molecular basis of muscular development in tongue. We focused on the critical stages of tongue myogenesis, namely, E10.5 (settlement of myogenic progenitors in tongue primordium), E11.5 (initiation of myoblast differentiation with the development of lateral lingual swellings).

Project description:The overall goal of this project is to investigate the role of TGF-beta signaling in tissue-tissue interactions between myogenic precursors of craniofacial muscles and cranial neural crest cells (CNCCs). Here, we conducted gene expression profiling of the mandibular arch from mice at embryonic day E11.5 with a CNCC-specific conditional inactivation of the TGF-beta receptor type 1 gene Alk5. These mice provide a model of microglossia as well as disrupted extraocular and masticatory muscle development, which are congenital birth defects commonly observed in several syndromic conditions.

Project description:Hedgehog signaling patterns the oral-aboral axis of the mandibular arch

Project description:Tissues from the eye primordia, lateral endoderm, and posterior neural plate of stage 15 Xenopus laevis embryos were isolated and normalized to stage 15 whole embryos. Three biological replicates were prepared for each tissue and the expression patterns were profiled using Affymetrix Xenopus Laevis GeneChip microarrays. Keywords: Three way comparison of Embryonic Tissue Isolation