Permeable TAD boundaries and their impact on genome‐associated functions - CEA - Université Paris-Saclay
Journal Articles BioEssays Year : 2024

Permeable TAD boundaries and their impact on genome‐associated functions

Abstract

TAD boundaries are genomic elements that separate biological processes in neighboring domains by blocking DNA loops that are formed through Cohesin-mediated loop extrusion. Most TAD boundaries consist of arrays of binding sites for the CTCF protein, whose interaction with the Cohesin complex blocks loop extrusion. TAD boundaries are not fully impermeable though and allow a limited amount of inter-TAD loop formation. Based on the reanalysis of Nano-C data, a multicontact Chromosome Conformation Capture assay, we propose a model whereby clustered CTCF binding sites promote the successive stalling of Cohesin and subsequent dissociation from the chromatin. A fraction of Cohesin nonetheless achieves boundary read-through. Due to a constant rate of Cohesin dissociation elsewhere in the genome, the maximum length of inter-TAD loops is restricted though. We speculate that the DNA-encoded organization of stalling sites regulates TAD boundary permeability and discuss implications for enhancer-promoter loop formation and other genomic processes.
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hal-04769742 , version 1 (06-11-2024)

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Li‐hsin Chang, Daan Noordermeer. Permeable TAD boundaries and their impact on genome‐associated functions. BioEssays, 2024, 46, pp.2400137. ⟨10.1002/bies.202400137⟩. ⟨hal-04769742⟩
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