Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions - Institut Pasteur
Article Dans Une Revue Nature Communications Année : 2017

Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions

Mariya Georgieva
  • Fonction : Auteur
  • PersonId : 772621
  • IdRef : 198629729
Frederic Bantignies
Giacomo Cavalli

Résumé

At the kilo- to megabase pair scales, eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that associate to form nuclear compartments. Here, we combine high-content super-resolution microscopies with state-of-the-art DNA-labeling methods to reveal the variability in the multiscale organization of the Drosophila genome. We find that association frequencies within TADs and between TAD borders are below ~10%, independently of TAD size, epigenetic state, or cell type. Critically, despite this large heterogeneity, we are able to visualize nanometer-sized epigenetic domains at the single-cell level. In addition, absolute contact frequencies within and between TADs are to a large extent defined by genomic distance, higher-order chromosome architecture, and epigenetic identity. We propose that TADs and compartments are organized by multiple, small-frequency, yet specific interactions that are regulated by epigenetics and transcriptional state.
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hal-01652403 , version 1 (02-02-2018)

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Diego Cattoni, Andrés M Cardozo Gizzi, Mariya Georgieva, Marco Di Stefano, Alessandro Valeri, et al.. Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions. Nature Communications, 2017, 8 (1), pp.1753. ⟨10.1038/s41467-017-01962-x⟩. ⟨hal-01652403⟩
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