Isolation and characterization of new alleles of the cyclin-dependent kinase gene CDC28 with cyclin-specific functional and biochemical defects.

The G1 cyclin Cln2 negatively regulates the mating-factor pathway. In a genetic screen to identify factors required for this regulation, we identified an allele of CDC28 (cdc28-csr1) that blocked this function of Cln2. Cln2 immunoprecipitated from cdc28-csr1 cells was completely defective in histone H1 kinase activity, due to defects in Cdc28 binding and activation by Cln2. In contrast, Clb2-associated H1 kinase and Cdc28 binding was normal in immunoprecipitates from these cells. cdc28-csr1 was significantly deficient in other aspects of genetic interaction with Cln2. The cdc28-csr1 mutation was determined to be Q188P, in the T loop distal to most of the probable Cdk-cyclin interaction regions. We performed random mutagenesis of CDC28 to identify additional alleles incapable of causing CLN2-dependent mating-factor resistance but capable of complementing cdc28 temperature-sensitive and null alleles. Two such mutants had highly defective Cln2-associated kinase, but, surprisingly, two other mutants had levels of Cln2-associated kinase near to wild-type levels. We performed a complementary screen for CDC28 mutants that could cause efficient Cln2-dependent mating-factor resistance but not complement a cdc28 null allele. Most such mutants were found to alter residues essential for kinase activity; the proteins had little or no associated kinase activity in bulk or in association with Cln2. Several of these mutants also functioned in another assay for CLN2-dependent function not involving the mating-factor pathway, complementing the temperature sensitivity of a cln1 cln3 cdc28-csr1 strain. These results could indicate that Cln2-Cdc28 kinase activity is not directly relevant to some CLN2-mediated functions. Mutants of this sort should be useful in differentiating the function of Cdc28 complexed with different cyclin regulatory subunits.