Peptide nucleic acid-fluorescence in situ hybridization (PNA-FISH) assay for specific detection of Mycobacterium immunogenum and DNA-FISH assay for analysis of pseudomonads in metalworking fluids and sputum

Specific and rapid detection and quantification of mycobacteria in contaminated metalworking fluid (MWF) are problematic due to complexity of the matrix and heavy background co-occurring microflora. Furthermore, cross-reactivity among neighboring species of Mycobacterium makes species differentiatio...

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Veröffentlicht in:Molecular and cellular probes 2008-10, Vol.22 (5), p.273-280
Hauptverfasser: Selvaraju, Suresh B., Kapoor, Renuka, Yadav, Jagjit S.
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Sprache:eng
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Zusammenfassung:Specific and rapid detection and quantification of mycobacteria in contaminated metalworking fluid (MWF) are problematic due to complexity of the matrix and heavy background co-occurring microflora. Furthermore, cross-reactivity among neighboring species of Mycobacterium makes species differentiation difficult for this genus. Here, we report for the first time a species-specific peptide nucleic acid-fluorescence in situ hybridization (PNA-FISH) method for Mycobacterium immunogenum, a non-tuberculous Mycobacterium species prevalent in MWF and implicated in occupational lung disease hypersensitivity pneumonitis and pseudo-outbreaks. A novel species-specific 14-bp PNA probe was designed for M. immunogenum based on its 16S rRNA gene sequence and was validated for specificity, by testing against a panel of other phylogenetically closely related rapidly growing mycobacteria and representative species of gram-positive, gram-negative, and acid fast organisms. In addition, a DNA-FISH protocol was optimized for co-detection of Pseudomonas, the most predominantly co-occurring genus in contaminated MWF. Reliable quantification for both the test organisms was achieved at or above a cell density of 10 3 cells ml −1, a recognized minimum limit for microscopic quantification. The mycobacterial PNA-FISH assay was successfully adapted to human sputum demonstrating its potential for clinical diagnostic applications in addition to industrial MWF monitoring, to assess MWF-associated exposures and pseudo-outbreaks.
ISSN:0890-8508
1096-1194
DOI:10.1016/j.mcp.2008.06.002