genomes, and less than 50% of similarity
with non-mycobacterial genomes, are shown. Mycobacterial molecular target design Among the 11 selected mycobacterial proteins, protein alignments revealed that the ATP synthase Pictilisib subunit C (locus Rv1305), the oxidoreductase (locus Rv0197), and the small secreted protein (locus Rv0236A), are the less polymorphous among the 14 NTM species studied (Additional file 2) and even absent in other bacteria genus and thus seemed very promising for primers and probes design. The remaining 8 proteins that were selected, namely ATP synthase subunit A, CMAS coded by the cmaA1 gene, lipoprotein coding by lppM gene, as well as PE, PPE and proteins coded by esx genes esxG, esxH and esxR, were highly conserved in studies MTC species (tuberculosis and bovis) but very polymorphous in the 14 NTM species studied (Additional file 1), which did not allow us to design specific mycobacterial primers and probes, according to the rules of primer and probe design (Additional file 3). DNA sequence alignment of the oxidoreductase and of the small secreted protein did not allow design of
PCR primers with a minimal length of Wortmannin cell line 18 oligonucleotides (Additional file 3). Only the DNA sequence alignment of the ATP synthase subunits C allowed designing a PCR primer pair and a probe. We designed the following primers and probe: forward primer FatpE 5′-CGGYGCCGGTATCGGYGA-3′ (Tm = 62°C), with the probe PatpE 5′-ACSGTGATGAAGAACGGBGTRAA-3′ (Tm = 68°C) which might be hydrolyzed by the reverse primer RatpE 5′-CGAAGACGAACARSGCCAT-3′ (Tm = 59°C, 182 bp). Real-time PCR validation Based on standard curve comparisons, our results showed reproducible amplification signals with similar Ct values for each genome equivalents of tested mycobacterial strains: M. avium, M. fortuitum, M. intracellulare, M. gordonae, and M. chelonae (Table 2). Detection limit was estimated at about 6 Reverse transcriptase genome equivalents
for M. chelonae by real-time PCR reaction by testing repetition of dilution limits (i.e. EC95 value: more than 95% of learn more positive detection for these genome concentration) whereas quantification limits were estimated at about 100 genome equivalents. In the positive collection all 31 mycobacteria species were positively detected by the real-time PCR method. This collection includes NTM species, leprae species and MTC species as tuberculosis and bovis (Table 3). None of the non-mycobacterial environmental strains and none of the CNM collection strains [17], were detected before the end of the 40 PCR cycles (Table 3). These results indicate a sensibility of 100% (31/31) and a specificity of 100% (0/30). Table 2 Characteristics of Mycobacterium avium , M. fortuitum , M. intracellulare , and M. chelonae DNA amplification using real-time PCR targeting atpE gene (locus Rv1305 in M. tuberculosis genome) Real-time PCR characteristics M. avium M. fortuitum M. intracellulare M. gordonae M. chelonae Correlation coefficient r 2 (%) 93.4 97.