Project description:Analysis of gene network branching during optic cup morphogenesis in zebrafish (RNA-Seq)

Project description:We captured chromatin accessibility branching using ATAC-seq in isolated NR and RPE populations in zebrafish. We identify differentially active cis-regulatory modules and classify them as activating or repressing elements.

Project description:This data set was generated with the aim to identify a comprehensive list of genes expressed in the rim cells and the RNE cells during zebrafish optic cup morphogenesis. GFP expressed under vsx2 locus was used as a reporter to isolate the rim cells (with low GFP expression) and retinal neuroepithelial cells (with high GFP expression).

Project description:Wnt signaling in early eye development, specifically the lens placode shows expression of 12 out of 19 Wnt ligands. We these Wnt activities were suppressed using conditional deletion of Wntless, dramatic phenotypic changes in morphogensis occurred. Microarray analysis of the genes that were changed in response to deletion of Wnt ligands in the developing eye region show direct or indirect responses from the surface ectoderm to the developing RPE and optic cup curvature, creating an overal shape change phenotype in the bilayerd epithelium of the optic cup.

Project description:Wnt signaling in early eye development, specifically the lens placode shows expression of 12 out of 19 Wnt ligands. We these Wnt activities were suppressed using conditional deletion of Wntless, dramatic phenotypic changes in morphogensis occurred. Microarray analysis of the genes that were changed in response to deletion of Wnt ligands in the developing eye region show direct or indirect responses from the surface ectoderm to the developing RPE and optic cup curvature, creating an overal shape change phenotype in the bilayerd epithelium of the optic cup. Mouse embryos at embryonic stage e10.5 were disected into pbs and eye regions were disected and removed for RNA extraction and hybridization to Affymetrix microarrays. We sought to identify the genes that were changed in response to deletion of Wls from the developing surface ectoderm of the eye region. Genes changed could be the direct or indirect result from deleltion of Wls from the surface ectoderm using the LeCre recombinase gene as a tool for analysis.

Project description:We characterize transcriptomic landscape using RNA-seq in isolated NR and RPE populations in zebrafish.

Project description:To identify genes regulated by Rx3 during optic vesicle morphogenesis, adult zebrafish carriers of a null rx3 mutation were mated. Before 13 hours post fertilization (hpf), the earliest time point at which optic vesicle evagination phenotypes could be reliably detected, offspring were phenotypically separated into pools comprising of mutants with an absence of optic vesicles or siblings exhibiting a wild-type phenotype. Three replicates of pooled RNA samples from 13 hpf eyeless mutants (rx3-/-) or phenotypically wild-type siblings (rx3+/+ or rx3+/-), and one replicate of 13 hpf wild-type zebrafish larva were collected for whole transcriptome sequencing. Whole transcriptome sequencing (RNA-seq) was performed on zebrafish rx3-/- mutants, wild-type siblings and wild-type AB strains at 13 hpf

Project description: Not available

Project description:To identify genes regulated by Rx3 during optic vesicle morphogenesis, adult zebrafish carriers of a null rx3 mutation were mated. Before 13 hours post fertilization (hpf), the earliest time point at which optic vesicle evagination phenotypes could be reliably detected, offspring were phenotypically separated into pools comprising of mutants with an absence of optic vesicles or siblings exhibiting a wild-type phenotype. Three replicates of pooled RNA samples from 13 hpf eyeless mutants (rx3-/-) or phenotypically wild-type siblings (rx3+/+ or rx3+/-), and one replicate of 13 hpf wild-type zebrafish larva were collected for whole transcriptome sequencing.

Project description:We sought to identify gene expression signatures confined to the small group of cells at the fissure margins that are involved in OFC. Serial cryosections perpendicular to the optic fissure were prepared from mouse embryonic eyes (n=3 at E11.5 and n=3 at E12.5). The fissure margins and a corresponding control region of dorsal optic cup were isolated using laser capture microdissection. This study design aimed to identify the signature of gene expression in the OFC margins and to identify those genes that were more highly expressed along the ventral (inferior) fissure compared to the opposing dorsal (superior region). Fissure closure is active at E11.5 and complete by E12.5