The products of the yeast CDC73 and PAF1 genes were originally identified as RNA polymerase II-associated proteins. Paf1p is a nuclear protein important for cell growth and transcriptional regulation of a subset of yeast genes. In this study we demonstrate that the product of CDC73 is a nuclear protein that interacts directly with purified RNA polymerase II in vitro. Deletion of CDC73 confers a temperature-sensitive phenotype. Combination of the cdc73 mutation with the more severe paf1 mutation does not result in an enhanced phenotype, indicating that the two proteins may function in the same cellular processes. To determine the relationship between Cdc73p and Paf1p and the recently described holoenzyme form of RNA polymerase II, we created yeast strains containing glutathione S-transferase ( A minimal set of transcription factors (RNA polymerase II plus TATA-binding protein [TBP], TFIIB, TFIIE, TFIIF, and TFIIH) are necessary for mRNA promoter-specific transcription initiation in vitro (for reviews, see references 7 and 12). Regulated transcription requires, in addition to these basal factors, many accessory proteins responsible for conveying regulatory signals to the general transcriptional machinery (68). There are at least two different classes of accessory factors that have been well characterized. One class includes the TBPassociated factors (TAFs) (for a review, see reference 58). In vitro reconstitution experiments strongly implicate the TAFs in the process of transcriptional activation (10). Another class of accessory factors exists in the mediator complex associated with the C-terminal repeat domain (CTD) of the largest subunit of RNA polymerase II (for a review, see reference 33). In the yeast Saccharomyces cerevisiae, the mediator can associate with RNA polymerase II and several general initiation factors to form a large protein complex termed the holoenzyme (30, 32). Most components of the holoenzyme, including the Srbps, Gal11p, Sin4p, Rgr1p, and Swi/Snfps, were originally identified by mutations that caused transcriptional alterations in yeast (24,27,34,39,43,53,64). Although mutations in some of these gene products affect the expression of only subsets of yeast genes, an analysis of temperature-sensitive mutations of SRB4 and SRB6 revealed transcription defects at all class II promoters assayed (57). Mammalian RNA polymerase II-containing complexes that include Srbp homologs, and many of the general transcription factors as well as DNA-repair factors, have recently been described (36,42).The reported complex forms of RNA polymerase II vary widely in terms of composition. In particular, some of the general initiation factors (TBP, TFIIE, and TFIIH) are present in some complexes but not others (30,32,36,42). In addition, some of the factors, including the Srbps and Gal11p, can be found in dissociable subcomplexes (30,34). Although it is probable that some of these differences reflect the different purification protocols used to isolate these extremely large complexes from widely differing cell type...
