IDENTIFICATION, PURIFICATION, AND CLONING OF A POLYPEPTIDE (PRTF/GRM) THAT BINDS TO MATING-SPECIFIC PROMOTER ELEMENTS IN YEAST

In yeast the α-specific regulators, α1 and α2 have been proposed to be DNA-binding proteins, both of which have to interact with an additional factor called PRTF or GRM, respectively, to exert their biological functions. Although the cis-acting sequence requirements for α1 and α2 are different, their target sequences share a common motif. PRTF or GRM is thought to act via this common DNA sequence; therefore, it has been suggested that they represent the same factor. I purified a protein that binds to this common promoter element by DNA affinity chromatography. The purified protein is able to recruit the α-specific activator α1 to its binding sites, suggesting that it is indeed PRTF. Further evidence is presented to show that PRTF and GRM are the same protein and that PRTF plays a role in the activation of a-specific genes. Specific antibodies to the purified protein were obtained. They identify the protein as a component of DNA-protein complexes that formed with cell-type specific promoter sequences. Using these antibodies, the gene encoding the protein was cloned from a yeast λgt11 expression library. The DNA sequence established that the gene encoding PRTF/GRM is identical with a previously described gene, FUN80 (essential factor of unknown function) or MCM1 (minichromosome maintenance). Sequence comparison showed further that PRTF/GRM shares similarities with a repressor from yeast, ARGRI, and the mammalian transcription factor SRF.