Reconstitution of in vitro inactivation and reactivation systems of DnaA protein for the control of chromosomal replication initiation in Escherichia coli

摘要

The Escherichia coli initiator protein, DnaA binds to the replicational origin of the chromosome (oriC) and initiates the replication in a manner depending on ATP binding. Replication of mini-chromosome (a plasmid bearing oriC) has been reconstituted in vitro using crude extracts or purified proteins. In these in vitro systems, only ATP-bound form of DnaA is active to initiate a series of initiation reactions which leads to loading of the DNA polymerase III holoenzyme (pol III HE) onto DNA for DNA synthesis. In a manner dependent on Hda protein and DNA loading of pol III HE, ATP bound on DnaA is hydrolyzed. The resultant ADP-bound form of DnaA is inactive for the initiation. This inactivation system called RIDA (regulatory inactivation of DnaA) ensures the replication initiation only once per cell cycle. We here describe recent progress on our system to reconstitute the inactivation of DnaA by RIDA and a novel system to regenerate active DnaA. The reconstitution of the Hda-dependent DnaA-ATP hydrolysis requires the DNA-loaded form of the sliding clamp. This complex is formed by loading of the β subunit of pol III HE onto DNA during replication process. Hda protein forms a stable complex with the sliding clamp, and most likely has a direct contact to ATP bound on DnaA. The cellular ATP-DnaA level fluctuates during the cell cycle. Regeneration from ADP-DnaA to ATP-DnaA is observed in vivo before the next round of the replication. Recently we have found a specific DNA segment DARS (DnaA-reactivating sequences) that has an activity to release ADP bound on DnaA. ATP-DnaA is regenerated by nucleotide-exchange in the presence of DARS and the elevated concentrations of ATP. The resultant ATP-DnaA was active in the mini-chromosome replication reaction in vitro. Thus, DARS can functionally reactivate ADP-DnaA. The in activation-reactivation cycle of DnaA might be reconstituted in vitro in a manner controled by RIDA and DARS.