Chromatin packing domains persist after RAD21 depletion in 3D

Abstract

AbstractUnderstanding chromatin organization requires integrating measurements of genome connectivity and physical structure. Prior work demonstrates that RAD21 depletion results in the complete loss of topologically associated and loop domains on Hi-C, but the corresponding change in physical structure has not been studied using electron microscopy. Pairing chromatin scanning transmission electron tomography with Hi-C, we study the role of cohesin in regulating the spatially resolved, conformationally defined chromatin packing domains. We find that only 20% of packing domains are lost on electron microscopy upon RAD21 depletion with the effect primarily on small, poorly packed (nascent) domains. Overall, this contrasts with the prevailing understanding of genome regulation, indicating that while cohesin influences domain formation, non-cohesin mediated mechanisms predominantly regulate the 3D genomic physical structure.