ubstantially higher exopolyphosphatase activities under the conditions tested. 
Rv0496 and Rv1026 do not hydrolyze guanosine pentaphosphate To the best of our knowledge, there is no commercial supplier of pppGpp. Previous investigations have used a promiscuous purine nucleotide pyrophosphotransferase from Streptomyces morookaensis or a purified E. coli ribosomal fraction that contains the RelA protein to convert ATP + GTP into pppGpp. We have found that the RelQ protein homologue from Enterococcus faecalis has excellent ppGpp synthesis activities, Rv0496 prefers short-chain length polyphosphates as substrates Biochemical Activities of Rv0496 and Rv1026 Protein MTB-PPX 1 Poly-P14 Poly-P60 12.161.6 7.960.2 7.360.2 603694 10.061.2 17.660.6 14.160.5 14106219 2.060.1 14.161.2 12.261.0 61006793 Poly-P130 17.361.6 6.660.2 6.760.2 387646 3.261.1 9.260.5 7.460.4 23136918 1.160.3 9.360.6 8.160.5 736462452 Km Vmax kcat kcat/Km 5.960.3 11.060.1 10.260.1 17296103 9.761.9 22.961.5 18.361.2 18866492 8.262.3 19.361.8 16.761.6 20376765 EC-GPP Km Vmax kcat kcat/Km EC-PPX Km Vmax kcat kcat/Km Individual kinetic parameters for the hydrolysis of three polyphosphate substrates with differing chain lengths are shown for each enzyme, incorporating results from sets of assays performed in quadruplicate. doi:10.1371/journal.pone.0042561.t001 with negligible ppGpp hydrolysis activities. Consequently, purified recombinant EF-RelQ protein , was used to enzymatically synthesize pppGpp and ppGpp from ATP + GTP, or from ATP + GDP, respectively. Anion exchange chromatography was used to separate the synthesized ppGpp alarmones from the starting materials and AMP biproduct . The purified pppGpp and ppGpp nucleotides were then desalted on Sephadex G10 resin and characterized as described by Hardiman et al. to confirm their identity and purify. As previous reports have failed to investigate the putative guanosine pentaphosphate 59-phosphohydrolase activities of the PPX-Gppa homologues from A. aeolicus and C. glutamicum, we felt it was highly-important PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22204719 to determine whether the MTB-PPX1 or Rv1026 proteins had this catalytic ability. As the E. coli GPP and PPX appear to be the only proteins clearly demonstrated to have this activity, they were both included as positive controls. Levels of pppGpp and ppGpp present after prolonged enzymatic incubation with MTB-PPX1 or Rv1026 were analyzed using anion exchange chromatography. Under the conditions used, ppGpp and pppGpp had distinct retention times. Whilst both the EC-GPP and EC-PPX proteins effectively cleaved the 59-terminal phosphate group, the MTBPPX1 and Rv1026 proteins completely lacked this activity under all conditions employed. To further confirm the pppGpp hydrolase abilities of the MTBPPX1 and Rv1026 proteins, we performed sets of complementation assays using crude cell lysates prepared from E. coli MG1655, CF6032 and M. smegmatis mc2155, analogous to those used to analyze their exopolyphosphatase activities. In these assays, 2 mg of purified protein and cell lysate were incubated with pppGpp in buffered reaction mixtures. The pppGpp and ppGpp levels were then quantified using anion exchange chromatography. The chromatograms obtained are shown in MTB-PPX1 and Rv1026 hydrolyze ATP and ADP substrates, but lack GTPase activities The NTP and NDP hydrolytic activities of MTB-PPX1 and Rv1026 were surveyed, to investigate their substrate MedChemExpress Asunaprevir specificities. The Rv1026 and MTB-PPX1 proteins were both found to possess modest ATPase
