Histone H1 variants play a crucial role in chromatin organization and regulation of nuclear processes. Imaging techniques revealed distinct distribution patterns for different somatic H1 variants in human cells during interphase and mitosis. Specifically, H1.2, H1.3, and H1.5 were consistently enriched at the nuclear periphery across all cell lines analyzed, co-localizing with compacted DNA. In contrast, H1X was universally present in high-GC regions and abundant in nucleoli. The distribution of other variants like H1.0 and H1.4 varied among cell lines, suggesting specific functionalities related to lamina-associated domains or nucleolar activity.
The study also found that depletion of specific H1 variants affected chromatin structure differently; for instance, knockdown of H1.2 led to global chromatin decompaction. Super-resolution microscopy highlighted unique spatial relationships between different histone variants within the nucleus, indicating potential functional consequences upon their depletion.
Furthermore, the research explored the association of certain histone variants with lamina-associated domains (LADs) and nucleolus-associated domains (NADs). Low-GC variants such as H1.2, H1.3, and H1.5 were enriched within LADs while high-GC variants like H1X showed a distinct pattern within NADs.
Overall, the study provides insights into the diverse roles played by histone H1 variants in chromatin organization across different cell types.
Egy másik nyelvre
a forrásanyagból
biorxiv.org
Főbb Kivonatok
by Salinas-Pena... : www.biorxiv.org 08-26-2023
https://www.biorxiv.org/content/10.1101/2023.08.25.554769v2Mélyebb kérdések