Project description:identification of differentially expressed genes in gas6 homozygous mutant hindbrain when compared to wildtype hindbrain in zebrafish
Project description:In the present study, we have identified six enhancers located within the zebrafish krox20 locus, using accessibility data generated by ATAC-seq and characterized their activity profiles as well as their functions and interactions in the zebrafish hindbrain . We also investigated the orthologues in six evolutionary distant vertebrates of one of these element, showing a great variety of activity profiles demonstrating the striking evolutionary flexibility of this element .
Project description:Purpose: The goal of this study is to understand the progressive patterning of neurogenesis of the developing zebrafish hindbrain. 16hpf, 24hpf and 44hpf zebrafish hindbrains were used for single-cell RNA-sequencing with the aim to uncover hindbrain development. Methods: 40 microdissected hindbrains per each stage were dissociated at loaded into the 10x Genomics Chromium Platform, and sequenced using Illumina HiSeq 4000. Conclusions: Our study constitute a resource of hindbrain gene expression during development. We have identified transcriptional programs involved in: rhombomere segmental identity, dorso-ventral patterning, boundary and centre progenitor cells and temporal regulation of neurogenesis.
Project description:The molecular logic that specifies and assembles closely-related subtypes of neurons into functional sensorimotor circuits remains unclear. The goal of this study was to characterize the molecular profiles of hindbrain vestibular neurons in the larval zebrafish to identify candidate molecular programs that specify their subtype fate, topography, and circuit assembly. We used single-cell RNA sequencing to generate a comprehensive atlas of hindbrain vestibular neurons and fluorecent in situ hybridization to annotate profiled neurons. Our dataset serves as a reference for evaluating developmental changes in molecular profiles following perturbations and identifies new candidate molecular solutions that assemble closely-related subtypes into functional circuits.