Abstract
In budding yeast, the meiosis-specific protein kinase Ime2 is required for normal meiotic progression.Current evidence suggests that Ime2 is functionally related to Cdc28, the major cyclin-dependent kinase in yeastthat is essential for both cell cycle and meiosis. We have previously reported that a natural target of Ime2 activityis replication protein A (RPA), the cellular single-stranded DNA-binding protein that performs critical functionsduring DNA replication, repair, and recombination. Ime2-dependent RPA phosphorylation first occursearly in meiosis and targets the middle subunit of the RPA heterotrimeric complex (Rfa2). We now demonstratethat Rfa2 serine 27 (S27) is required for Ime2-dependent Rfa2 phosphorylation in vivo. S27 is also required forRfa2 phosphorylation in vitro catalyzed by immunoprecipitated Ime2. In addition, Ime2 mediates in vitro phosphorylationof a short peptide containing Rfa2 amino acids 23 through 29, thereby providing evidence that S27itself is the phosphoacceptor. Phosphorylation site mapping supports this conclusion, as mass spectrometryanalysis has revealed that at least three residues within Rfa2 amino acids 2 through 35 become phosphorylatedspecifically during meiosis. Although S27 is embedded in a motif that is recognized by several protein kinases,this sequence is not a typical target of cyclin-dependent kinases. Therefore, the mechanism underlying Ime2substrate recognition could differ from that of Cdc28.
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