AI Article Synopsis
- - The study investigates how mouse pluripotent stem cells (PSCs) reset their molecular features after cell division (mitosis), focusing on the transcriptional and structural changes that occur when they enter the G1 phase.
- - Researchers found that after mitosis, there are distinct phases of gene reactivation, including quick activation of stem cell genes and temporary activation of genes related to specific lineages, alongside changes in chromatin structure.
- - Key findings suggest that the retention of a specific chemical marker (H3K27 acetylation) during mitosis helps in the early reactivation of crucial stem cell genes, while the overall structure of chromatin remains stable and unaffected by this marker.
Article Abstract
During self-renewal, cell-type-defining features are drastically perturbed in mitosis and must be faithfully reestablished upon G1 entry, a process that remains largely elusive. Here, we characterized at a genome-wide scale the dynamic transcriptional and architectural resetting of mouse pluripotent stem cells (PSCs) upon mitotic exit. We captured distinct waves of transcriptional reactivation with rapid induction of stem cell genes and transient activation of lineage-specific genes. Topological reorganization at different hierarchical levels also occurred in an asynchronous manner and showed partial coordination with transcriptional resetting. Globally, rapid transcriptional and architectural resetting associated with mitotic retention of H3K27 acetylation, supporting a bookmarking function. Indeed, mitotic depletion of H3K27ac impaired the early reactivation of bookmarked, stem-cell-associated genes. However, 3D chromatin reorganization remained largely unaffected, suggesting that these processes are driven by distinct forces upon mitotic exit. This study uncovers principles and mediators of PSC molecular resetting during self-renewal.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8052294 | PMC |
| http://dx.doi.org/10.1016/j.molcel.2021.02.032 | DOI Listing |
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