Litcius/Paper detail

Loops and the activity of loop extrusion factors constrain chromatin dynamics

Mary Lou P. Bailey, Ivan V. Surovtsev, Jessica F. Williams, Hao Yan, Tianyu Yuan, Kevin Li, Katherine Duseau, S. G. J. Mochrie, Megan C. King

2023Molecular Biology of the Cell15 citationsDOIOpen Access PDF

Abstract

cells with systematic genetic perturbations and Rouse model polymer simulations. We first investigated how the activity of two loop extrusion factors, the cohesin and condensin complexes, influences chromatin dynamics. We observed that deactivating cohesin, or to a lesser extent condensin, increased chromatin mobility, suggesting that loop extrusion constrains rather than agitates chromatin motion. Our corresponding simulations reveal that the introduction of loops is sufficient to explain the constraining activity of loop extrusion factors, highlighting that the conformation adopted by the polymer plays a key role in defining its dynamics. Moreover, we find that the number of loops or residence times of loop extrusion factors influence the dynamic behavior of the chromatin polymer. Last, we observe that the activity of the INO80 chromatin remodeler, but not the SWI/SNF or RSC complexes, is critical for ATP-dependent chromatin mobility in fission yeast. Taking the data together, we suggest that thermal and INO80-dependent activities exert forces that drive chromatin fluctuations, which are constrained by the organization of the chromosome into loops.

Topics & Concepts

ChromatinCondensinCohesinBiologyBiophysicsDNANucleosomeSolenoidCell biologyExtrusionGeneticsPhysicsMaterials scienceQuantum mechanicsMetallurgyGenomics and Chromatin DynamicsRNA Research and SplicingDNA and Nucleic Acid Chemistry