Today's Hours: 12:00pm - 8:00pm

Search

Filter Applied Clear All

Did You Mean:

Search Results

  • Article
    VijayKumar S, Borja M, Neff N, Royer LA, Lange M.
    MethodsX. 2024 Dec;13:102958.
    Single-cell sequencing has revolutionized our understanding of cellular heterogeneity and cell state, enabling investigations across diverse fields such as developmental biology, immunology, and cancer biology. However, obtaining a high-quality single-cell suspension is still challenging, particularly when starting with limited materials like Zebrafish embryos, a powerful animal model for studying developmental processes and human diseases. Here, we present an optimized protocol for isolating single cells from individual zebrafish embryos, offering a valuable resource for researchers interested in working with limited starting material. The protocol facilitates unique investigations utilizing individual embryos, such as inter-individual genetic differences and embryo-specific lineage tracing analysis. Using a refined single-cell isolation protocol alongside zebrafish as a model organism, researchers can access a resource for exploring the emergence of all types and states of cells, advancing our understanding of cellular processes and disease mechanisms.
    Digital Access Direct to PDF
doi:10.1016/j.mex.2024.102958