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Binding domain mutations provide insight into CTCF’s relationship with chromatin and its contribution to gene regulation

Catherine Do, Guimei Jiang, Giulia Cova, Christos C. Katsifis, Domenic N. Narducci, Theodore Sakellaropoulos, Raphael Vidal, Priscillia Lhoumaud, Aristotelis Tsirigos, Faye Fara Regis, Nata Kakabadze, Elphège P. Nora, Marcus B. Noyes, Anders S. Hansen, Jane A. Skok

2025Cell Genomics15 citationsDOIOpen Access PDF

Abstract

Here we used a series of CTCF mutations to explore CTCF's relationship with chromatin and its contribution to gene regulation. CTCF's impact depends on the genomic context of bound sites and the unique binding properties of WT and mutant CTCF proteins. Specifically, CTCF's signal strength is linked to changes in accessibility, and the ability to block cohesin is linked to its binding stability. Multivariate modeling reveals that both CTCF and accessibility contribute independently to cohesin binding and insulation, but CTCF signal strength has a stronger effect. CTCF and chromatin have a bidirectional relationship such that at CTCF sites, accessibility is reduced in a cohesin-dependent, mutant-specific fashion. In addition, each mutant alters TF binding and accessibility in an indirect manner, changes which impart the most influence on rewiring transcriptional networks and the cell's ability to differentiate. Collectively, the mutant perturbations provide a rich resource for determining CTCF's site-specific effects.

Topics & Concepts

CTCFChromatinGeneticsDomain (mathematical analysis)GeneChIA-PETBiologyComputational biologyMutationChromatin remodelingTranscription factorEnhancerMathematical analysisMathematicsGenomics and Chromatin DynamicsEpigenetics and DNA MethylationChromatin Remodeling and Cancer