Genome replication and cell division control by the methylation-sensitive GcrA regulator in Agrobacterium tumefaciens

Bacteria with complex genomes including secondary chromosomes and/or megaplasmids face unique challenges when controlling their cell cycle: they not only need to coordinate genome replication with other cell cycle events such as cell growth and cell division, but also to synchronize the replication of different replicons. In Alphaproteobacteria , replication and maintenance of large extrachromosomal replicons are usually dependent on RepABC modules, as seen for the plant pathogen Agrobacterium tumefaciens . In this study, we demonstrate that the conserved GcrA protein is an essential methylation-dependent transcriptional regulator playing at least two critical roles during the A. tumefaciens cell cycle. First, GcrA is required for the on-time and synchronized firing of the three RepABC-dependent origins of replication of A. tumefaciens that are needed for chromosomal and megaplasmid replication. Second, GcrA triggers the expression of several essential cell division genes for the timely assembly of a functional divisome. These findings highlight how this conserved global regulator can control and then synchronize a variety of essential cell cycle events in Alphaproteobacteria with complex genomes, notably coordinating the maintenance of several RepABC-dependent replicons with cell division.