Previously, we reported that Salmonella enterica serovar Paratyphi A strain S602 grew into multinuclear, nonseptate, and nonlethal filaments on agar plates containing nitrogenous salts. Strain S602 was more sensitive to osmotic and oxidative stress than the reference strain 3P243 of nonfilamentous Salmonella Paratyphi A. Strain S602 had an amber mutation (C154T) in rpoS. The revertant of this mutant, SR603, was repressed to form filaments under conditions with abundant nitrogenous salts. However, 3PR244, an rpoS mutant of 3P243 (C154T), did not form filaments, which implies that the rpoS mutation is not the sole cause of filamentation in strain S602. Next, we examined whether the level of guanosine 5′-diphosphate 3′-diphosphate (ppGpp) in S602 strain is involved in filament formation. The intracellular ppGpp level in filamentous cells was lower than that in nonfilamentous cells. Furthermore, cells belonging to strain RE606, a derivative of S602 where the intracellular concentration of ppGpp was increased by overexpression of the relA gene, exhibited normal Z-ring formation and cell division. In the S602 strain, the decrease in the ppGpp level induced by the presence of nitrogenous salt and the rpoS mutation led to the inhibition of Z-ring formation and the subsequent filamentation of cells.
