Abstract
A43, an essential subunit of yeast RNA polymerase I (pol I), interacts with Rrn3, a class I general transcription factor required for rDNA transcription. The pol I-Rrn3 complex is the only form of enzyme competent for promoter-dependent transcription initiation. In this paper, using biochemical and genetic approaches, we demonstrate that the A43 polypeptide forms a stable heterodimer with the A14 pol I subunit and interacts with the common ABC23 subunit, the yeast counterpart of the omega subunit of bacterial RNA polymerase. We show by immunoelectronic microscopy that A43, ABC23, and A14 colocalize in the three-dimensional structure of the pol I, and we demonstrate that the presence of A43 is required for the stabilization of both A14 and ABC23 within the pol I. Because the N-terminal half of A43 is clearly related to the pol II Rpb7 subunit, we propose that the A43-A14 pair is likely the pol I counterpart of the Rpb7-Rpb4 heterodimer, although A14 distinguishes from Rpb4 by specific sequence and structure features. This hypothesis, combined with our structural data, suggests a new localization of Rpb7-Rpb4 subunits in the three-dimensional structure of yeast pol II.