DNA replication initiation, doubling of rate of phospholipid synthesis, and cell division in Escherichia coli

Abstract

In synchronized culture of Escherichia coli, the specific arrest of phospholipid synthesis (brought about by glycerol starvation in an appropriate mutant) did not affect the rate of ongoing DNA synthesis but prevented the initiation of new rounds. The initiation block did not depend on cell age at the time of glycerol removal, which could be before, during, or after the doubling in the rate of phospholipid synthesis (DROPS) and as little as 10 min before the expected initiation. We conclude that the initiation of DNA replication is not triggered by the preceding DROPS but requires active phospholipid synthesis. Conversely, when DNA replication initiation was specifically blocked in a synchronized culture of a dnaC(Ts) mutant, two additional DROPS were observed, after which phospholipid synthesis continued at a constant rate for at least 60 min. Similarly, when DNA elongation was blocked by thymine starvation of a synchronized culture, one additional DROPS was observed, followed by linear phospholipid accumulation. Control experiments showed that specific inhibition of cell division by ampicillin, heat shock, or induction of the SOS response did not affect phospholipid synthesis, suggesting that the arrest of DROPS observed was due to the DNA replication block. The data are compatible with models in which the DROPS is triggered by an event associated with replication termination or chromosome segregation.