Effect of a single amino acid substitution G98D in a ribosome-associated essential GTPase, CgtA, on the growth and morphology of Vibrio cholerae

Abstract

CgtA, a highly conserved 50S ribosome-associated essential GTPase, acts as a repressor of the stringent stress response under nutrient-rich growth conditions to suppress basal levels of the alarmone ppGpp in V. cholerae. To further explore the in vivo functionality of CgtA, we introduced an amino acid substitution, i.e., Gly98Asp, in a conserved glycine residue in the N-terminal domain. The constructed V. cholerae mutant was designated CgtA(G98D). Comparison of cell sizes of the CgtA(G98D)mutant with its isogenic wild-type (Wt) strain N16961 under different phases of growth by Transmission Electron Microscopy (TEM) and statistical analysis suggests that CgtA may control the cell size of V. cholerae. The cell length is significantly reduced, corresponding to the delayed growth in the mid-logarithmic phase. The differences in the cell length of CgtA(G98D) and Wt are indistinguishable in the late logarithmic phase. During the stationary phase, marked by higher OD600, a sub-population of CgtA(G98D) cells outnumbered the Wt cells lengthwise. CgtA(G98D) cells appeared slenderer than Wt cells with significantly reduced cell width. However, the centerline curvature is preserved in CgtA(G98D) cells. We propose that in addition to its multitude of intracellular roles, CgtA may influence the cell size of V. cholerae.