Accessible chromatin is important for RNA polymerase II recruitment and transcription initiation at eukaryotic promoters. We investigated the mechanistic links between promoter DNA sequence, nucleosome positioning and transcription. Our results indicate that precise positioning of the transcription start site-associated +1 nucleosome in yeast is critical for efficient TBP binding, and is driven by two key factors, the essential chromatin remodeler RSC and a small set of ubiquitous pioneer transcription factors. We find no evidence for recruitment of RSC by pioneer factors, but show instead that the strength and directionality of RSC action on nucleosomes depends upon the arrangement of two specific DNA motifs that promote its binding and nucleosome displacement activity at promoters. Thus, despite their widespread co-localization, RSC and pioneer factors predominantly act independently to generate accessible chromatin. Our results provide insight into how promoter DNA sequence instructs trans-acting factors to control nucleosome architecture and stimulate transcription initiation.(149 words)
CDK8 encodes an evolutionarily conserved Mediator complex kinase subunit that functions in general and context-specific transcription regulation by phosphorylating core components of the transcription machinery and gene-specific transcription factors. To better understand the role Cdk8 in transcription regulation, we performed high-resolution gene expression time course analysis following nuclear depletion of Cdk8. Focusing on the earliest gene expression alterations revealed dysregulation of genes encoding glycolysis enzymes, suggesting a functional link to Gcr1 and Gcr2, key transcriptional activators of these genes. Consistently, we found that nuclear depletion of Cdk8 altered the mRNA levels of glycolysis genes as well as the promoter occupancy of Gcr2, but not Gcr1. Examination of the Gcr2 protein sequence revealed a putative Cdk8 phosphorylation site at serine 365, which we confirmed using in vitro and in vivo assays. Importantly, phospho-mutant GCR2 recapitulated the growth and gene expression defects of the GCR2 deletion mutant, effects not observed with a phospho mimetic mutant. As such, our work highlights Gcr2 as a new Cdk8 substrate, revealing that its phosphorylation is critical for the activation of genes encoding glycolysis enzymes.
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