Afficher la couverture 'Molecular basis of CTCF binding polarity in genome folding | Nora, Elphège, P' en grand format
/5

0 avis

Molecular basis of CTCF binding polarity in genome folding

Archive ouverte

Nora, Elphège, P | Caccianini, Laura | Fudenberg, Geoffrey | So, Kevin | Kameswaran, Vasumathi | Nagle, Abigail | Uebersohn, Alec | Hajj, Bassam | Saux, Agnès, Le | Coulon, Antoine | Mirny, Leonid, A | Pollard, Katherine, S | Dahan, Maxime | Bruneau, Benoit, G

Edité par CCSD ; Nature Publishing Group -

International audience. Current models propose that boundaries of mammalian topologically associating domains (TADs) arise from the ability of the CTCF protein to stop extrusion of chromatin loops by cohesin. While the orientation of CTCF motifs determines which pairs of CTCF sites preferentially stabilize loops, the molecular basis of this polarity remains unclear. By combining ChIP-seq and single molecule live imaging we report that CTCF positions cohesin, but does not control its overall binding dynamics on chromatin. Using an inducible complementation system, we find that CTCF mutants lacking the N-terminus cannot insulate TADs properly. Cohesin remains at CTCF sites in this mutant, albeit with reduced enrichment. Given the orientation of CTCF motifs presents the N-terminus towards cohesin as it translocates from the interior of TADs, these observations explain how the orientation of CTCF binding sites translates into genome folding patterns.

Suggestions

Du même auteur

Targeted degradation of CTCF decouples local insulation of chromosome domains from higher-order genomic compartmentalization

Archive ouverte | Nora, Elphege, P | CCSD

The molecular mechanisms underlying folding of mammalian chromosomes remain poorly understood. The transcription factor CTCF is a candidate regulator of chromosomal structure. Using the auxin-inducible degron system in mouse embry...

CTCF confers local nucleosome resiliency after DNA replication and during mitosis

Archive ouverte | Owens, Nick | CCSD

International audience. The access of Transcription Factors (TFs) to their cognate DNA binding motifs requires a precise control over nucleosome positioning. This is especially important following DNA replication an...

Inversion of a topological domain leads to restricted changes in its gene expression and affects interdomain communication

Archive ouverte | Galupa, Rafael | CCSD

International audience. The interplay between the topological organization of the genome and the regulation of gene expression remains unclear. Depletion of molecular factors (e.g. CTCF) underlying topologically ass...

Chargement des enrichissements...