Abstract
Previous studies have shown that GAGA Factor (GAF) is enriched on promoters with paused RNA Polymerase II (Pol II), but its genome-wide function and mechanism of action remain largely uncharacterized. We assayed the levels of transcriptionally-engaged polymerase using global run-on sequencing (GRO-seq) in control and GAF-RNAi Drosophila S2 cells and found promoter-proximal polymerase was significantly reduced on a large subset of paused promoters where GAF occupancy was reduced by knock down. These promoters show a dramatic increase in nucleosome occupancy upon GAF depletion. These results, in conjunction with previous studies showing that GAF directly interacts with nucleosome remodelers, strongly support a model where GAF directs nucleosome displacement at the promoter and thereby allows the entry Pol II to the promoter and pause sites. This action of GAF on nucleosomes is at least partially independent of paused Pol II because intergenic GAF binding sites with little or no Pol II also show GAF-dependent nucleosome displacement. In addition, the insulator factor BEAF, the BEAF-interacting protein Chriz, and the transcription factor M1BP are strikingly enriched on those GAF-associated genes where pausing is unaffected by knock down, suggesting insulators or the alternative promoter-associated factor M1BP protect a subset of GAF-bound paused genes from GAF knock-down effects. Thus, GAF binding at promoters can lead to the local displacement of nucleosomes, but this activity can be restricted or compensated for when insulator protein or M1BP complexes also reside at GAF bound promoters.
Highlights
Transcription is controlled by transcription factors (TFs) that modulate various steps in the transcription process
We found that GAGA Factor (GAF) depletion reduces polymerase density at genes where GAF binds just upstream of the transcription start site (TSS), and results in nucleosomes moving into the promoter region
Our results show that GAF is important for maintaining the promoter accessibility, allowing Polymerase II (Pol II) to be recruited to promoters and enter the pause sites downstream of the TSS
Summary
Transcription is controlled by transcription factors (TFs) that modulate various steps in the transcription process. Two major points of transcription regulation are recruitment of Pol II to a preinitiation complex (PIC) and promoter-proximal pausing. PICs form when general transcription factors bind to accessible nucleosome-free promoters and recruit Pol II. TFs can change the rate of PIC formation by altering either nucleosome placement on promoters or Pol II recruitment [1]. Many genes are regulated after Pol II recruitment by the controlled release of a stable paused Pol II, which is typically located in the promoter-proximal region 20–60bp downstream of the transcription start site [2]. TFs can stimulate release Pol II from the pause by recruiting, directly or indirectly, P-TEFb kinase that modifies the paused Pol II complex, allowing it to efficiently transcribe across the gene [3]
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