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Systematic assessment of ISWI subunits shows that NURF creates local accessibility for CTCF

Mario Iurlaro, Francesca Masoni, Ilya M. Flyamer, C Wirbelauer, Murat Iskar, Lukas Burger, Luca Giorgetti, Dirk Schübeler

2024Nature Genetics28 citationsDOIOpen Access PDF

Abstract

Catalytic activity of the imitation switch (ISWI) family of remodelers is critical for nucleosomal organization and DNA binding of certain transcription factors, including the insulator protein CTCF. Here we define the contribution of individual subcomplexes by deriving a panel of isogenic mouse stem cell lines, each lacking one of six ISWI accessory subunits. Individual deletions of subunits of either CERF, RSF, ACF, WICH or NoRC subcomplexes only moderately affect the chromatin landscape, while removal of the NURF-specific subunit BPTF leads to a strong reduction in chromatin accessibility and SNF2H ATPase localization around CTCF sites. This affects adjacent nucleosome occupancy and CTCF binding. At a group of sites with reduced chromatin accessibility, CTCF binding persists but cohesin occupancy is reduced, resulting in decreased insulation. These results suggest that CTCF binding can be separated from its function as an insulator in nuclear organization and identify a specific role for NURF in mediating SNF2H localization and chromatin opening at bound CTCF sites.

Topics & Concepts

CTCFCohesinChromatinNucleosomeBiologyTranscription factorInsulator (electricity)Protein subunitGeneticsCell biologyDNAGenePhysicsEnhancerOptoelectronicsGenomics and Chromatin DynamicsCRISPR and Genetic EngineeringChromosomal and Genetic Variations