Isolation of a specific DNA fragment and development of a PCR-based method for the detection of Mycobacterium genavense.

The rise of Mycobacterium genavense infections is making identification ever more important for diagnosis and treatment. Moreover, isolation and identification of M. genavense are made difficult by the lack of growth on solid media and by its low generation rate in BACTEC liquid media. Thus, amplification by PCR or similar techniques represents the only possibility of detecting and identifying M. genavense from tissue samples. In order to set up a simple and species-specific method based on the use of PCR and non-radioactive hybridization technique, we decided to search for and clone a specific DNA fragment of this bacterial species. In the present study, a 1734-bp fragment was isolated. This fragment was found to be highly specific for M. genavense strains. A species-specific pair of primers (MG22 and MG23) and two oligonucleotide probes (MG18 and MG19) were selected. They were successfully used to amplify and detect a 155-bp DNA fragment from the 13 available strains of M. genavense which were isolated from clinical specimens or from birds. Conversely, the primers and probes did not hybridize with DNA from any of the 20 other mycobacterial species tested. It is worth noting that the chosen primers and probes did not hybridize with DNA of M. simiae, although it is closely related to M. genavense. The present PCR technique uses species-specific primers for M. genavense. Followed by a non-radioactive hybridization technique on microplates it is able to distinguish M. genavense from other mycobacteria in one step, without sequencing or restriction analysis. On the basis of the Southern blot hybridization, PCR and sandwich hybridization results, we concluded that the isolated 1.7-kb sequence was specific for the M. genavense chromosome. The method developed here for M. genavense identification uses a simple methodology and commonly available reagents. Furthermore it can be easily automated.