AI Article Synopsis
- * One class requires high acetylation for gene activation, while the other is inhibited by high acetylation levels; EGR2 exemplifies the latter, where acetylation affects activation timing and response intensity.
- * Research indicates that acetylation not only influences gene expression kinetics but also affects allele activation and overall transcriptional dynamics, emphasizing a complex relationship between acetylation and gene activation.
Article Abstract
High levels of histone acetylation are associated with the regulatory elements of active genes, suggesting a link between acetylation and gene activation. We revisited this model, in the context of EGF-inducible gene expression and found that rather than a simple unifying model, there are two broad classes of genes; one in which high lysine acetylation activity is required for efficient gene activation, and a second group where the opposite occurs and high acetylation activity is inhibitory. We examined the latter class in more detail using EGR2 as a model gene and found that lysine acetylation levels are critical for several activation parameters, including the timing of expression onset, and overall amplitudes of the transcriptional response. In contrast, DUSP1 responds in the canonical manner and its transcriptional activity is promoted by acetylation. Single cell approaches demonstrate heterogenous activation kinetics of a given gene in response to EGF stimulation. Acetylation levels modify these heterogenous patterns and influence both allele activation frequencies and overall expression profile parameters. Our data therefore point to a complex interplay between acetylation equilibria and target gene induction where acetylation level thresholds are an important determinant of transcriptional induction dynamics that are sensed in a gene-specific manner.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8682737 | PMC |
| http://dx.doi.org/10.1093/nar/gkab1176 | DOI Listing |
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