Project description:Identification of downstream targets of zebrafish Hoxb1a

Project description:Zebrafish zic2 controls formation of periocular neural crest and choroid fissure morphogenesis

Project description:A zebrafish melanoma model reveals emergence of neural crest identity during melanoma initiation [zebrafish RNA-Seq]

Project description:A zebrafish melanoma model reveals emergence of neural crest identity during melanoma initiation [zebrafish ChIP-seq]

Project description:Cardiac neural crest contributes to cardiomyocytes in amniotes and heart regeneration in zebrafish

Project description:The PR domain containing 1a, with ZNF domain factor, gene prdm1a plays an integral role in the development of a number of different cell types during vertebrate embryogenesis, including neural crest cells, Rohon-Beard (RB) sensory neurons and the cranial neural crest-derived craniofacial skeletal elements. To better understand how Prdm1a regulates the development of various cell types in zebrafish, we performed a microarray analysis comparing wild type and prdm1a mutant embryos and identified a number of genes with altered expression in the absence of prdm1a. Rescue analysis determined that two of these, sox10 and islet1, lie downstream of Prdm1a in the development of neural crest cells and Rohon-Beard neurons, respectively. In addition, we identified a number of other novel downstream targets of Prdm1a that may be important for the development of diverse tissues during zebrafish embryogenesis. RNA was isolated from whole zebrafish embryos at 25hpf, three replicates each for wildtype and prdm1a mutant embryos.

Project description:RNA-sequencing of neural crest cells collected from Gt(foxd3:mCherry);Tg(sox10:mEGFP) embryos

Project description:A zebrafish melanoma model reveals emergence of neural crest identity during melanoma initiation [ATAC-Seq]

Project description:TWIST1, a basic helix-loop-helix transcription factor is essential for the development of cranial mesoderm and cranial neural crest-derived craniofacial structures. Our previous work showed that, in the absence of TWIST1, some cells within the cranial mesoderm adopt an abnormal epithelial configuration. Here, we show by transcriptome analysis that loss of TWIST1 in the cranial mesoderm is accompanied by a reduction in the expression of genes that are associated with cell-extracellular matrix interactions and the acquisition of mesenchymal characteristics. By comparing the transcriptional profiles of cranial mesoderm-specific Twist1 loss-of-function mutant and control mouse embryos, we identified a set of genes that are both TWIST1-dependent and predominantly expressed in the mesoderm. By ChIP-seq in a cell line model of a TWIST1-dependent mesenchymal state, we identified, among the downstream genes, three direct transcriptional targets of TWIST1: Ddr2, Pcolce and Tgfbi. Our findings show that the mesenchymal properties of the cranial mesoderm is likely to be regulated by a network of TWIST1 targets genes that influence the extracellular matrix and cell-matrix interactions, and collectively they are required for the morphogenesis of the craniofacial structures. Cranial neural crest and cranial mesoderm cells were isolated by flow sorting of GFP reporter-labelled cells collected from heads of E9.5 mouse embryos. Three replicates were independently isolated and hybridized to Illumina mouse WG v 2.0 chips

Project description:Zebrafish (Danio rerio) neural crest cell RNA-sequencing