Gene expression analysis and proximity labeling reveal post-transcriptional functions of the yeast RNA polymerase II regulator Def1
Oluwasegun T. Akinniyi, Shardul Kulkarni, Mikayla M. Hribal, Cheryl A. Keller, Belinda M. Giardine, Joseph C. Reese

TL;DR
This study reveals that the yeast protein Def1, known for its role in transcription, also regulates mRNA decay in the cytoplasm, impacting gene expression.
Contribution
The study identifies a novel cytoplasmic role for Def1 in post-transcriptional regulation and mRNA decay.
Findings
Def1 interacts with cytoplasmic proteins involved in mRNA decay processes like deadenylation and decapping.
Def1's presence reduces mRNA expression and accelerates mRNA turnover.
Changes in mRNA synthesis and decay rates are strongly correlated, stabilizing mRNA levels.
Abstract
Def1 is a yeast protein that promotes transcription elongation and regulates the degradation of RNA polymerase II during transcription stress. Although Def1 is localized in the cytoplasm, its functions in this cellular compartment are not yet understood. Despite its well-established roles in transcription, a comprehensive genome-wide analysis of its impact on gene expression has not been conducted. Here, we performed RNA-Seq analysis on cells lacking DEF1 and surprisingly found that only a few hundred genes exhibited altered expression, both upregulated and downregulated. To evaluate mRNA synthesis and decay rates in these DEF1-deficient cells, we used a nascent transcription metabolic labeling technique called RATE-Seq (RNA Approach To Equilibrium sequencing). As expected, we observed reduced synthesis rates across the genome in these cells. In addition, a global decrease in mRNA decay…
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Taxonomy
TopicsRNA Research and Splicing · Biotin and Related Studies · Fungal and yeast genetics research
