Defining the chromatin signature of inducible genes in T cells

Chloe LIM, Kristine Hardy, Karen Bunting, Lina Ma, Kaiman Peng, Xinxin Chen, Frances Shannon

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Abstract

Background: Specific chromatin characteristics, especially the modification status of the core histone proteins, are associated with active and inactive genes. There is growing evidence that genes that respond to environmental or developmental signals may possess distinct chromatin marks. Using a T cell model and both genome-wide and gene-focused approaches, we examined the chromatin characteristics of genes that respond to T cell activation.
Results: To facilitate comparison of genes with similar basal expression levels, we used expression-profiling data to bin genes according to their basal expression levels. We found that inducible genes in the lower basal expression bins, especially rapidly induced primary response genes, were more likely than their non-responsive counterparts to display the histone modifications of active genes, have RNA polymerase II (Pol II) at their promoters and show evidence of ongoing basal elongation. There was little or no evidence for the presence of active chromatin marks in the absence of promoter Pol II on these inducible genes. In addition, we identified a subgroup of genes with active promoter chromatin marks and promoter Pol II but no evidence of elongation. Following T cell activation, we find little evidence for a major shift in the active chromatin signature around inducible gene promoters but many genes recruit more Pol II
and show increased evidence of elongation.
Conclusions: These results suggest that the majority of inducible genes are primed for activation by having an active chromatin signature and promoter Pol II with or without ongoing elongation.
Original languageEnglish
Pages (from-to)1-18
Number of pages18
JournalGenome Biology
Volume10
Issue number10
DOIs
Publication statusPublished - 2009
Externally publishedYes

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    LIM, C., Hardy, K., Bunting, K., Ma, L., Peng, K., Chen, X., & Shannon, F. (2009). Defining the chromatin signature of inducible genes in T cells. Genome Biology, 10(10), 1-18. https://doi.org/10.1186/gb-2009-10-10-r107