AI Article Synopsis
- The study focuses on how DNA wrapped around histone proteins, forming nucleosomes, can be accessed during processes like replication and repair, highlighting the dynamic nature of these structures.
- Researchers used high-speed atomic force microscopy to visualize nucleosome disassembly, finding that this process is sequential and involves the ejection of dimers, with linker histone H1 playing a key role in restricting DNA unwrapping and increasing nucleosomal stability.
- The findings reveal that tetrasomes (a type of nucleosome structure) are resilient and mobile, potentially influencing how nucleosomes assemble and function during transcription, especially in the presence of RNA polymerase.
Article Abstract
During replication, expression, and repair of the eukaryotic genome, cellular machinery must access the DNA wrapped around histone proteins forming nucleosomes. These octameric protein·DNA complexes are modular, dynamic, and flexible and unwrap or disassemble either spontaneously or by the action of molecular motors. Thus, the mechanism of formation and regulation of subnucleosomal intermediates has gained attention genome-wide because it controls DNA accessibility. Here, we imaged nucleosomes and their more compacted structure with the linker histone H1 (chromatosomes) using high-speed atomic force microscopy to visualize simultaneously the changes in the DNA and the histone core during their disassembly when deposited on mica. Furthermore, we trained a neural network and developed an automatic algorithm to track molecular structural changes in real time. Our results show that nucleosome disassembly is a sequential process involving asymmetrical stepwise dimer ejection events. The presence of H1 restricts DNA unwrapping, significantly increases the nucleosomal lifetime, and affects the pathway in which heterodimer asymmetrical dissociation occurs. We observe that tetrasomes are resilient to disassembly and that the tetramer core (H3·H4) can diffuse along the nucleosome positioning sequence. Tetrasome mobility might be critical to the proper assembly of nucleosomes and can be relevant during nucleosomal transcription, as tetrasomes survive RNA polymerase passage. These findings are relevant to understanding nucleosome intrinsic dynamics and their modification by DNA-processing enzymes.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10823521 | PMC |
| http://dx.doi.org/10.1021/acscentsci.3c00735 | DOI Listing |
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