Cell cycle-regulated transcription through the FHA domain of Fkh2p and the coactivator Ndd1p.

Recent studies in Saccharomyces cerevisiae by using global approaches have significantly enhanced our knowledge of the components involved in the transcriptional regulation of the cell cycle. The Mcm1p-Fkh2p complex, in combination with the coactivator Ndd1p, plays an important role in the cell cycle-dependent expression of the CLB2 gene cluster during the G2 and M phases ([4-7]; see [8-10]for reviews). Fkh2p is phosphorylated in a cell cycle-dependent manner, and peak phosphorylation occurs coincidentally with maximal expression of Mcm1p-Fkh2p-dependent gene expression. However, the mechanism by which this complex is activated in a cell cycle-dependent manner is unknown. Here, we demonstrate that the forkhead-associated (FHA) domain of Fkh2p directs cell cycle-regulated transcription and that the activity of this domain is dependent on the coactivator Ndd1p. Ndd1p was found to be phosphorylated in a cell cycle-dependent manner by Cdc28p-Clb2p, and, importantly, this phosphorylation event promotes interactions between Ndd1p and the FHA domain of Fkh2p. Furthermore, mutation of the FHA domain blocks these phosphorylation-dependent interactions and abolishes transcriptional activity. Our data therefore link the transcriptional activity of the FHA domain with cell cycle-dependent phosphorylation of the coactivator Ndd1p and reveal a mechanism that permits precise temporal activation of the Mcm1p-Fkh2p complex.