Reprogramming mRNA Expression in Response to Defect in RNA Polymerase III Assembly in the Yeast Saccharomyces cerevisiae

Locus-specific proteome decoding reveals Fpt1 as a chromatin-associated negative regulator of RNA polymerase III assembly

Transcription of tRNA genes by RNA polymerase III (RNAPIII) is tuned by signaling cascades. The emerging notion of differential tRNA gene regulation implies the existence of additional regulatory mechanisms. However, tRNA gene-specific regulators have not been described. Decoding the local chromatin proteome of a native tRNA gene in yeast revealed reprogramming of the RNAPIII transcription machinery upon nutrient perturbation. Among the dynamic proteins, we identified Fpt1, a protein of unknown function that uniquely occupied RNAPIII-regulated genes. Fpt1 binding at tRNA genes correlated with the efficiency of RNAPIII eviction upon nutrient perturbation and required the transcription factors TFIIIB and TFIIIC but not RNAPIII. In the absence of Fpt1, eviction of RNAPIII was reduced, and the shutdown of ribosome biogenesis genes was impaired upon nutrient perturbation. Our findings provide support for a chromatin-associated mechanism required for RNAPIII eviction from tRNA genes and tuning the physiological response to changing metabolic demands.

Assembly of RNA polymerase III complex involves a putative co-translational mechanism

Detailed knowledge of structures of yeast RNA polymerases (RNAPs) contrasts with the limited information that is available on the control of their assembly. RNAP enzymes are large heteromeric complexes that function in the nucleus, but they are assembled in the cytoplasm and imported to the nucleus with help from specific auxiliary factors. Here, I review a recent study that suggests that the formation of an early-stage assembly intermediate of the RNAP III complex occurs through a co-translational mechanism. According to our hypothesis, RNAP III assembly might be seeded while the Rpb10 subunit of the enzyme core is being synthesized by cytoplasmic ribosome machinery. The co-translational assembly of RNAP III is mediated by Rbs1 protein which binds to 3'-untranslated regions in mRNA in a way that depends on the R3H domain in the Rbs1 sequence.