AI Article Synopsis
- Retinoic acid (RA) is crucial for various embryonic development processes, including body axis and central nervous system patterning, and its signaling influences gene expression through RA receptors.
- Treating zebrafish embryos with all-trans-RA (atRA) allows researchers to investigate how RA affects gene expression on a genome-wide scale using advanced sequencing techniques.
- The study reveals that RA signaling not only impacts specific gene targets but also alters chromatin structure and accessibility, thereby reorganizing chromatin architecture and influencing the regulation of key developmental genes.
Article Abstract
Retinoic acid (RA) is the ligand of RA receptors (RARs), transcription factors that bind to RA response elements. RA signaling is required for multiple processes during embryonic development, including body axis extension, hindbrain antero-posterior patterning and forelimb bud initiation. Although some RA target genes have been identified, little is known about the genome-wide effects of RA signaling during in vivo embryonic development. Here, we stimulate the RA pathway by treating zebrafish embryos with all-trans-RA (atRA) and use a combination of RNA-seq, ATAC-seq, ChIP-seq and HiChIP to gain insight into the molecular mechanisms by which exogenously induced RA signaling controls gene expression. We find that RA signaling is involved in anterior/posterior patterning, central nervous system development, and the transition from pluripotency to differentiation. AtRA treatment also alters chromatin accessibility during early development and promotes chromatin binding of RARαa and the RA targets Hoxb1b, Meis2b and Sox3, which cooperate in central nervous system development. Finally, we show that exogenous RA induces a rewiring of chromatin architecture, with alterations in chromatin 3D interactions involving target genes. Altogether, our findings identify genome-wide targets of RA signaling and provide a molecular mechanism by which developmental signaling pathways regulate target gene expression by altering chromatin topology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11040003 | PMC |
| http://dx.doi.org/10.1093/nar/gkae065 | DOI Listing |
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