The gene encoding the 49-kDa subunit of RNA polymerase A in Saccharomyces cerevisiae has been identified by formation of a hybrid enzyme between the S. cerevisiae A49 subunit and Saccharomyces douglaui subunits based on a polymorphism existing between the subunits ofRNA polymerase A in these two species. The sequence of the gene reveals a basic protein with an unusually high lysine content, which may account for the affinity for DNA shown by the subunit. No appreciable homology with any polymerase subunits, enzymes, or transcription factors is found. Complete deletion of the single-copy RPA49 gene leads to viable but slowly growing colonies. Insertion of the HIS3 gene halfway into the RPA49 coding region results in synthesis of a truncated A49 subunit that is incorporated into the polymerase. The truncated and wild-type subunits compete equally for assembly in the heterozygous diploid, although the wild type is phenotypically dominant.The yeast Saccharomyces cerevisiae possesses three nuclear RNA polymerases-A, B, and C (I, II, and III). These three forms of RNA polymerase can be distinguished by their subcellular localization, chromatographic behavior, subunit composition, sensitivity to a-amanitin, and promoter/ template specificity. Recent advances in the molecular genetics of yeast have made possible the functional dissection of the polymerases through cloning and sequencing of the genes encoding subunits and through selection of corresponding mutants (see refs. 1 and 2 for recent reviews).The single (essential) function of RNA polymerase A (pol A) is to transcribe the >100 ribosomal DNA units into the 35S ribosomal precursor (3), which is subsequently matured into the functional 18S, 5.8S, and 25S species (4). These RNA species together comprise 85% oftotal cellular RNA (5). Like the two other nuclear enzymes, yeast pol A has a complex subunit structure that includes a core of four subunits (A190, A135, AC40, and AC19) related to the 1,3'a2 eubacterial core enzyme (6) and a set of five small subunits (ABC27, ABC23, ABC14.5, ABC1Oa, and ABC1OB), which are common to all three yeast nuclear RNA polymerases (7). The corresponding genes have been cloned, sequenced, and found to encode essential components of the enzyme as judged from the properties of null mutants (6,(8)(9)(10)(11)(12). In addition, five other polypeptides (A49, A43, A34.5, A14, and A12.2) are associated with yeast pol A and are thus likely to be specific subunits of that enzyme (13,14).The gene encoding the 49-kDa subunit (A49) is ofparticular interest since this protein has been extensively studied at the biochemical level. Along with the subunit A34.5, A49 is easily dissociated from the rest of pol A, producing the form A*, which shows impaired transcriptional activity and increased sensitivity to a-amanitin as compared to the complete polymerase (14). In addition, the A49 subunit has been observed to copurify with an RNase H activity (15, 16), although the possibility of a contaminating enzyme with RNase H activity that copurifies wi...
