Characterization of the Interactions of Mammalian RNA Polymerase I Associated Proteins PAF53 and PAF49

Abstract

Masami Muramatsu's laboratory demonstrated the critical role of RNA polymerase I (Pol I)-associated factor PAF53 in mammalian rRNA transcription. They have also identified a second polymerase associated factor, PAF49. Both PAF49 and PAF53 copurify with that fraction of the RNA polymerase I molecules that can function in transcription initiation in vitro. PAF49 and PAF53 are the mammalian homologues of two subunits of yeast RNA polymerase I, A34.5 and A49, that form a TFIIF-related subcomplex in yeast RNA polymerase I. In light of those publications, we investigated the interactions between various deletion and substitution mutants of mammalian PAF49 and PAF53 with the purpose of identifying those domains of the mammalian proteins that interact. Comparison of our results with structural studies on yeast A34.5 and A49 demonstrates that the yeast and mammalian proteins may in fact share structural similarities. In fact, the deletion mutagenesis data confirmed and extended the structural studies. For example, amino acids 41-86 of PAF49 were sufficient to provide the basis for heterodimerization. In silico structural analysis predicted that this region could assume a structure similar to the homologous region of yeast A34.5. Those similarities are insufficient, by themselves, for the proteins to form interspecific heterodimers. However, substitution of amino acids 52-98 of yeast A34.5 with amino acids 41-86 of mammalian PAF49 resulted in a protein that could heterodimerize with mouse PAF53.