DNA methylation affects the cell cycle transcription of the CtrA global regulator in Caulobacter

The Caulobacter chromosome changes progressively from the fully methylated to the hemimethylated state during DNA replication. These changes in DNA methylation could signal differential binding of regulatory proteins to activate or repress transcription. The gene encoding CtrA, a key cell cycle regulatory protein, is transcribed from two promoters. The P1 promoter fires early in S phase and contains a GAnTC sequence that is recognized by the CcrM DNA methyltransferase. Using analysis of CcrM mutant strains, transcriptional reporters integrated at different sites on the chromosome, and a ctrA P1 mutant, we demonstrate that transcription of the P1 promoter is repressed by DNA methylation. Moreover moving the native ctrA gene to a position near the chromosomal terminus, which delays the conversion of the ctrA promoter from the fully to the hemimethylated state until late in the cell cycle, inhibited ctrA P1 transcription, and altered the time of accumulation of the CtrA protein and the size distribution of swarmer cells. Together, these results show that CcrM-catalyzed methylation adds another layer of control to the regulation of ctrA expression.