Objective

In past work in budding yeast, we identified a nucleosomal region required for proper interactions between the histone chaperone complex yFACT and transcribed genes. Specific histone mutations within this region cause a shift in yFACT occupancy towards the 3’ end of genes, a defect that we have attributed to impaired yFACT dissociation from DNA following transcription. In this work we wished to assess the contributions of DNA sequences at the 3’ end of genes in promoting yFACT dissociation upon transcription termination.

Results

We generated fourteen different alleles of the constitutively expressed yeast gene PMA1, each lacking a distinct DNA fragment across its 3’ end, and assessed their effects on occupancy of the yFACT component Spt16. Whereas most of these alleles conferred no defects on Spt16 occupancy, one did cause a modest increase in Spt16 binding at the gene’s 3’ end. Interestingly, the same allele also caused minor retention of RNA Polymerase II (Pol II) and altered nucleosome occupancy across the same region of the gene. These results suggest that specific DNA sequences at the 3’ ends of genes can play roles in promoting efficient yFACT and Pol II dissociation from genes and can also contribute to proper chromatin architecture.