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Chromatin structure from high resolution microscopy: scaling laws and microphase separation
Auteur(s): Remini L., Segers Midas, Palmeri J., Walter J.-C., Parmeggiani A., Carlon Enrico
(Article) Publié:
Physical Review E, vol. 109 p.024408 (2024)
Ref HAL: hal-04177307_v3
DOI: 10.1103/PhysRevE.109.024408
Exporter : BibTex | endNote
Résumé: Recent advances in experimental fluorescence microscopy allow high accuracy determination (resolution of 50nm) of the 3D physical location of multiple (up to ~10^2) tagged regions of the chromosome. We investigate publicly available microscopy data for two loci of the human Chr.21 obtained from multiplexed FISH methods for different cell lines and treatments. Inspired by polymer physics models, our analysis centers around distance distributions between different tags, aiming to unravel the chromatin conformational arrangements. We show that for any specific genomic site, there are (at least) two different conformational arrangements of chromatin, implying coexisting distinct topologies which we refer to as phase "alpha" and phase "beta". These two phases show different scaling behaviors: the former is consistent with a crumpled globule while the latter indicates a confined, but more extended conformation, as a looped domain. The identification of these distinct phases sheds light on the coexistence of multiple chromatin topologies and provides insights into the effects of cellular context and/or treatments on chromatin structure.
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