4.5 Article

Nucleosome breathing facilitates cooperative binding of pluripotency factors Sox2 and Oct4 to DNA

Journal

BIOPHYSICAL JOURNAL
Volume 121, Issue 23, Pages 4526-4542

Publisher

CELL PRESS
DOI: 10.1016/j.bpj.2022.10.039

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Funding

  1. DST India [DST SERB CRG/2019/001001, MTR/2020/000664]
  2. departmental DBT [BT/HRD/01/09/2020, BT/PR40251/BTIS/137/11/2021]
  3. CSIR India [09/263 (1119) /2017-EMR-I]

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This study reveals the mechanism of interaction between transcription factors and nucleosomes. The research shows that the transcription factors cluster bind to the entry-exit region of nucleosomes and regulate gene search and regulation by altering nucleosome dynamics and entropy.
Critical lineage commitment events are staged by multiple transcription factors (TFs) binding to their cognate motifs, often positioned at nucleosome-enriched regions of chromatin. The underlying mechanism remains elusive due to difficulty in disentangling the heterogeneity in chromatin states. Using a novel coarse-grained model and molecular dynamics simulations, here we probe the association of Sox2 and Oct4 proteins that show clustered binding at the entry-exit region of a nucleosome. The model captures the conformational heterogeneity of nucleosome breathing dynamics that features repeated wrapunwrap transitions of a DNA segment from one end of the nucleosome. During the dynamics, DNA forms bulges that diffuse stochastically and may regulate the target search dynamics of a protein by nonspecifically interacting with it. The overall search kinetics of the TF pair follows a dissociation-compensated-association mechanism, where Oct4 binding is facilitated by the association of Sox2. The cooperativity stems from a change in entropy caused by an alteration in the nucleosome dynamics upon TF binding. The binding pattern is consistent with a live-cell single-particle tracking experiment, suggesting the mechanism observed for clustered binding of a TF pair, which is a hallmark of cis-regulatory elements, has broader implications in understanding gene regulation in a complex chromatin environment.

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