The dual-function Rel(Mtb) protein from Mycobacterium tuberculosis catalyzes both the synthesis and hydrolysis of (p)ppGpp, the effector of the stringent response. In our previous work [Avarbock, D., Avarbock, A., and Rubin, H. (2000) Biochemistry 39, 11640], we presented evidence that the Rel(Mtb) protein might catalyze its two opposing reactions at distinct active sites. In the study presented here, we purified and characterized fragments of the 738-amino acid Rel(Mtb) protein and confirmed the hypothesis that amino acid fragment 1-394 contains both synthesis and hydrolysis activities, amino acid fragment 87-394 contains only (p)ppGpp synthesis activity, and amino acid fragment 1-181 contains only (p)ppGpp hydrolysis activity. Mutation of specific residues within fragment 1-394 results in the loss of synthetic activity and retention of hydrolysis (G241E and H344Y) or loss of hydrolytic activity with retention of synthesis (H80A and D81A). The C-terminally cleaved Rel(Mtb) fragment proteins have basal activities similar to that of full-length Rel(Mtb), but are no longer regulated by the previously described Rel(Mtb) activating complex (RAC). Residues within the C-terminus of Rel(Mtb) (D632A and C633A) are shown to have a role in interaction with the RAC. Additionally, size exclusion chromatography indicates Rel(Mtb) forms trimers and removal of the C-terminus results in monomers. The C-terminal deletion, 1-394, which exists as a mixture of monomers and trimers, will dissociate from the trimer state upon the addition of substrate. Furthermore, the trimer state of fragment 1-394 appears to be a catalytically less efficient state than the monomer state.