CgtA is an essential bacterial GTPase consisting of a highly conserved N-terminal Spo0B-associated GTP-binding protein (Obg) domain, a central GTPase domain, and a variable C-terminal domain (CTD). This study reports global changes in the proteome and transcriptome of wild-type (Wt) versus full-length CgtA-depleted Vibrio cholerae in minimal media. Comparative transcriptome sequencing (RNA-Seq), followed by comparative proteomic analyses, revealed that the knockdown of cgtA significantly altered expressions of 311 proteins involved in diverse cellular activities, many of which are associated with the survival of V. cholerae. Various intracellular functional roles of CgtA in growth, viability, motility, morphology, and persister phenotypes in V. cholerae are revealed based on subsequent confirmatory experiments. Furthermore, a more sustained mRNA expression pattern of cgtA in a minimal medium than in a rich medium was also observed for Wt V. cholerae, where the highest level of mRNA expression of cgtA was observed during the logarithmic growth phase. Thereby, we propose that minimal medium-associated reduced growth rate coupled with cgtA depletion aggravates the intracellular stress in V. cholerae, interrupting vital cellular processes. The functional role of the CTD in V. cholerae is not fully understood. Hence, to specifically investigate the intracellular role of the 57-amino-acid-long CTD of CgtAVC, the CTD-only portion of CgtA was deleted. Subsequent proteomics studies revealed an altered expression of 240 proteins in the CgtA(ΔCTD) mutant, having major overlap with the full-length cgtA-deleted condition. Overall, our study reveals an alternative facet of the survival mechanism of V. cholerae during nutritional downshift as per the concomitant consequences of cgtA depletion. IMPORTANCE It is very important that we must find new drug target proteins from multidrug-resistant human-pathogenic organisms like V. cholerae. CgtA is among such potential candidates, and here, we are reporting about some newly identified cellular roles of it that are important for the survival of V. cholerae. Briefly, we knocked down the full-length cgtA gene, as well as did a partial deletion of this gene from the V. cholerae genome followed by RNA-Seq and proteomics studies. Results from our study revealed up- and downregulation of several known and unknown genes and proteins as the effect of the cgtA knockdown experiment. Also, we have presented some interesting observations that are linked with cgtA for growth, viability, motility, morphology, and persister phenotypes in V. cholerae. Our study enhances the importance of CgtA and paves the way for further exploration based on our provided data.
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