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Cryoelectron tomography reveals the multiplex anatomy of condensed native chromatin and its unfolding by histone citrullination

Nathan Jentink, Carson Purnell, Brianna Kable, Matthew T. Swulius, Sergei A. Grigoryev

2023Molecular Cell49 citationsDOIOpen Access PDF

Abstract

Nucleosome chains fold and self-associate to form higher-order structures whose internal organization is unknown. Here, cryoelectron tomography (cryo-ET) of native human chromatin reveals intrinsic folding motifs such as (1) non-uniform nucleosome stacking, (2) intermittent parallel and perpendicular orientations of adjacent nucleosome planes, and (3) a regressive nucleosome chain path, which deviates from the direct zigzag topology seen in reconstituted nucleosomal arrays. By examining the self-associated structures, we observed prominent nucleosome stacking in cis and anti-parallel nucleosome interactions, which are consistent with partial nucleosome interdigitation in trans. Histone citrullination strongly inhibits nucleosome stacking and self-association with a modest effect on chromatin folding, whereas the reconstituted arrays undergo a dramatic unfolding into open zigzag chains induced by histone citrullination. This study sheds light on the internal structure of compact chromatin nanoparticles and suggests a mechanism for how epigenetic changes in chromatin folding are retained across both open and condensed forms.

Topics & Concepts

NucleosomeChromatinBiologyHistoneChromatosomeBiophysicsHistone octamerStackingLinker DNAFolding (DSP implementation)Cell biologyGeneticsDNAPhysicsNuclear magnetic resonanceEngineeringElectrical engineeringGenomics and Chromatin DynamicsSignaling Pathways in DiseaseRNA modifications and cancer
Cryoelectron tomography reveals the multiplex anatomy of condensed native chromatin and its unfolding by histone citrullination | Litcius