Early Initiation of Deoxyribonucleic Acid Replication and Shortening of Generation Time Associated with Inhibition of Lateral Wall Formation by Mecillinam

The effects of mecillinam on the growth of rods of the pH-conditional morphology mutant MirM7 was studied. It has been found that mecillinam causes, coincident with transition to coccal shape, a balanced rise in the rate of viable count increase and the rate of macromolecular synthesis which lasts either until the cells enter a stationary growth phase or indefinitely, in the case of continuously diluted cultures. When the antibiotic is removed from cells which have already become coccoid, cells continue to grow at a faster rate until they resume the rod shape. No change in the per-cell rate of protein synthesis has been seen in untreated or mecillinam-treated cells before or after the change in growth rate. Studies with synchronously growing cells have shown that the antibiotic causes a shortening in the I period (initiation of deoxyribonucleic acid replication). Evaluation of the residual divisions in nalidixic acid-treated, exponential-phase cells has shown that mecillinam also shortens the D period (cell division). It is proposed that, in strain MirM7, inhibition of lateral wall elongation by the antibiotic allows the initiation of a new septum, though inhibition is still in progress. The initiation of a new septum is, in turn, responsible for both the early inibition of deoxyribonucleic acid replication and accelerated division. In the parental strain, MirA12, as well as in other sensitive gram-negative rods which divide, become cocci, and stop dividing after addition of the antibiotic, inhibition of lateral wall formation activates a feedback mechanism which prevents insertion of new septa (Satta et al., J. Bacteriol.142: 43-51, 1980). Consequently, no early initiation of deoxyribonucleic acid replication is observed, and the last division allowed by the antibiotic occurs in due time. This negative control is missing in MirM7.