Npa3 interacts with Gpn3 and assembly factor Rba50 for RNA polymerase II biogenesis.

Abstract

RNA polymerase II is one of the most vital macromolecular complexes in eukaryotes and the assembly of such complete enzyme requires many factors. Three members of GPN-loop GTPase family Npa3/Gpn1, Gpn2, and Gpn3 participate in the biogenesis of RNA polymerase II with nonredundant roles. We show here that rapid degradation of each GPN protein in yeast leads to cytoplasmic accumulation of Rpb1 and defects in the assembly of RNA polymerase II, suggesting conserved functions of GPN paralogs for RNA polymerase II biogenesis as in humans. Taking advantage of a multicopy genetic screening, we identified GPN3 and assembly factor RBA50 among others as strong suppressors of npa3ts mutants. We further demonstrated that Npa3 interacts with Gpn3 and Rba50, similarly human Gpn1 physically interacts with Gpn3 and RPAP1 (human analog of Rba50). Moreover, a mutual dependency of protein levels of Npa3 and Gpn3 was also clearly presented in yeast using an auxin-inducible degron (AID) system. Interestingly, Rpb2, the second largest subunit of RNA polymerase II was determined to be the subunit that interacts with both Gpn1 and Rba50, indicating a close association of Npa3 and Rba50 in Rpb2 subcomplex assembly. Based on these results, we conclude that Npa3 interacts with Gpn3 and Rba50, for RNA polymerase II biogenesis. We therefore propose that multiple factors may coordinate through conserved regulatory mechanisms in the assembly of RNA polymerase complex.