2022 journal article

Chromatin fiber breaks into clutches under tension and crowding

Nucleic Acids Research.

MeSH headings : Cell Nucleus; Chromatin; Molecular Conformation; Nucleosomes
TL;DR: It is revealed that chromatin segments with fibril or clutch structures engaged in distinct binding modes and the implications of these inter-chain interactions for a potential sol-gel phase transition are discussed. (via Semantic Scholar)
Source: ORCID
Added: April 5, 2023

Abstract The arrangement of nucleosomes inside chromatin is of extensive interest. While in vitro experiments have revealed the formation of 30 nm fibers, most in vivo studies have failed to confirm their presence in cell nuclei. To reconcile the diverging experimental findings, we characterized chromatin organization using a residue-level coarse-grained model. The computed force–extension curve matches well with measurements from single-molecule experiments. Notably, we found that a dodeca-nucleosome in the two-helix zigzag conformation breaks into structures with nucleosome clutches and a mix of trimers and tetramers under tension. Such unfolded configurations can also be stabilized through trans interactions with other chromatin chains. Our study suggests that unfolding from chromatin fibers could contribute to the irregularity of in vivo chromatin configurations. We further revealed that chromatin segments with fibril or clutch structures engaged in distinct binding modes and discussed the implications of these inter-chain interactions for a potential sol–gel phase transition.