Abstract

Rel(Mtb), a GTP pyrophosphokinase encoded by the Mycobacterium tuberculosis (Mtb) genome, catalyzes synthesis of (p)ppGpp from ATP and GDP(GTP) and its hydrolysis to GDP(GTP) and pyrophosphate to mediate stringent response, which helps bacteria to survive during nutrient limitation. Like other members of Rel_Spo homologs, Rel(Mtb) has four distinct domains: HD, Rel_Spo (RSD), TGS and ACT. The N-terminal HD and RSD are responsible for (p)ppGpp hydrolysis and synthesis, respectively. In this study, we have dissected the rel(Mtb) gene function and determined the minimal region essential for (p)ppGpp synthetic activity. The Rel(Mtb) and its truncated derivatives were expressed from an arabinose inducible promoter (P(BAD)), and in vivo functional analyses were done in a (p)ppGpp null Escherichia coli strain. Our results indicate that only 243 amino acids (188-430 residues) containing fragment are sufficient for Rel(Mtb) (p)ppGpp synthetic activity. The results were further confirmed by in vitro assays using purified proteins. We further characterized the RSD of Rel(Mtb) by substituting several conserved amino acids with structurally related residues and identified six such residues, which appeared to be critical for maintaining its catalytic activity. Furthermore, we have also extended our analysis to an RSD encoding gene rv1366 of Mtb, and experimental results indicated that the encoded protein Rv1366 is unable to synthesize (p)ppGpp.

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