AI Article Synopsis
- Embryonic stem cells (ESCs) can self-renew and differentiate into various cell types, but the mechanisms behind these processes are not fully understood, with recent studies highlighting the importance of epigenetic factors.
- This study investigates the role of histone 3 acetylation (H3K9,14ac) on gene expression in mouse ESCs during differentiation, particularly focusing on the effects of silencing the transcription factor Nanog.
- Analysis reveals that changes in histone acetylation are significantly correlated with gene expression changes, with ESC-specific genes showing greater acetylation and a more pronounced decrease over time, indicating a complex relationship between histone modifications and gene regulation in stem cells.
Article Abstract
Embryonic stem cells (ESC) have the potential to self-renew indefinitely and to differentiate into any of the three germ layers. The molecular mechanisms for self-renewal, maintenance of pluripotency and lineage specification are poorly understood, but recent results point to a key role for epigenetic mechanisms. In this study, we focus on quantifying the impact of histone 3 acetylation (H3K9,14ac) on gene expression in murine embryonic stem cells. We analyze genome-wide histone acetylation patterns and gene expression profiles measured over the first five days of cell differentiation triggered by silencing Nanog, a key transcription factor in ESC regulation. We explore the temporal and spatial dynamics of histone acetylation data and its correlation with gene expression using supervised and unsupervised statistical models. On a genome-wide scale, changes in acetylation are significantly correlated to changes in mRNA expression and, surprisingly, this coherence increases over time. We quantify the predictive power of histone acetylation for gene expression changes in a balanced cross-validation procedure. In an in-depth study we focus on genes central to the regulatory network of Mouse ESC, including those identified in a recent genome-wide RNAi screen and in the PluriNet, a computationally derived stem cell signature. We find that compared to the rest of the genome, ESC-specific genes show significantly more acetylation signal and a much stronger decrease in acetylation over time, which is often not reflected in a concordant expression change. These results shed light on the complexity of the relationship between histone acetylation and gene expression and are a step forward to dissect the multilayer regulatory mechanisms that determine stem cell fate.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3002996 | PMC |
| http://dx.doi.org/10.1371/journal.pcbi.1001034 | DOI Listing |
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