Journal
NANOSCALE
Volume 13, Issue 10, Pages 5435-5447Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0nr08564b
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Funding
- Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) [SFB863, 111166240]
- Fund for Scientific Research (FWO)
- KU Leuven - internal funds (IDO)
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This study introduces a high-throughput pipeline for analyzing nucleosome conformations using atomic force microscopy and automated image analysis, revealing multiple unwrapping states for nucleosomes. The research shows differences in unwrapping behaviors between canonical H3 nucleosomes and centromeric CENP-A nucleosomes.
Nucleosomes, the fundamental units of chromatin, regulate readout and expression of eukaryotic genomes. Single-molecule experiments have revealed force-induced nucleosome accessibility, but a high-resolution unwrapping landscape in the absence of external forces is currently lacking. Here, we introduce a high-throughput pipeline for the analysis of nucleosome conformations based on atomic force microscopy and automated, multi-parameter image analysis. Our data set of similar to 10 000 nucleosomes reveals multiple unwrapping states corresponding to steps of 5 bp DNA. For canonical H3 nucleosomes, we observe that dissociation from one side impedes unwrapping from the other side, but in contrast to force-induced unwrapping, we find only a weak sequence-dependent asymmetry. Notably, centromeric CENP-A nucleosomes do not unwrap anti-cooperatively, in stark contrast to H3 nucleosomes. Finally, our results reconcile previous conflicting findings about the differences in height between H3 and CENP-A nucleosomes. We expect our approach to enable critical insights into epigenetic regulation of nucleosome structure and stability and to facilitate future high-throughput AFM studies that involve heterogeneous nucleoprotein complexes.
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