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Spatial organization of chromatin at the HoxD locus in developing limbs and brain


ABSTRACT: The emergence and evolution of digits was an essential step in the success of the tetrapod lineage. Amongst the key players, Hoxd genes were functionally co-opted in the developing digital plate, where they help organize growth and patterns. To understand both the evolutionary recruitment and transcriptional regulation of this genomic locus, we analyzed its architecture and chromatin status in developing digits, combined with a deletion approach in vivo. We show that the active and inactive parts of the gene cluster adopt opposite spatial configurations, corresponding to different chromatin domains. Active genes are contacted by several regulatory islands, located within a neighboring gene desert, which contribute quantitatively or qualitatively to the global transcriptional readout. We refer to this novel type of control as a ‘regulatory archipelago’ and discuss the value of this concept to understand both the morphological flexibility of tetrapod digits and the robustness of the underlying developmental process. Chromosome Conformation Capture-on-chip analysis (4C) at the Hoxd locus in developing limbs and brain at E12.5

ORGANISM(S): Mus musculus

PROVIDER: GSE31658 | GEO | 2011/11/28

SECONDARY ACCESSION(S): PRJNA155015

REPOSITORIES: GEO

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