Qualitative detection of Legionella species in bronchoalveolar lavages and induced sputa by automated DNA extraction and real-time polymerase chain reaction.

Molecular assays for qualitative detection of Legionella spp. in clinical specimens were evaluated. DNA extraction was done either with a fully automated DNA extraction protocol on the MagNA Pure LC System or with manual DNA extraction. Amplification and detection were done by real-time polymerase chain reaction (PCR) on the LightCycler (LC) instrument. Oligonucleotides were derived from the 16S rRNA gene of Legionella spp. The assays included a specially designed DNA fragment as Legionella-specific internal control. For both molecular assays, the detection limit was determined to be 5 CFU per LC PCR run. Sixty-one clinical specimens were tested with the molecular assays. Results were compared to culture. Five samples were found to be positive with the molecular assays. Three of them were positive in culture. No inhibition was found throughout the whole study. In conclusion, the molecular assays described may lead to safe and early diagnosis of Legionnaires' disease. They proved to be suitable for the routine molecular diagnostics laboratory.

Single-tube two-round polymerase chain reaction using the LightCycler instrument.

BACKGROUND: For many diagnostic applications, the specificity and sensitivity of polymerase chain reaction (PCR) is markedly enhanced by applying two rounds of PCR with nested or semi-nested pairs of primers. In two-round PCR protocols on the LightCycler instrument, amplification products must be collected from the capillaries by centrifugation, a procedure thought to be particularly prone to product carry-over. OBJECTIVE: Development of a technique to perform two-round PCR with the LightCycler instrument in a single closed capillary. STUDY DESIGN: Silicone oil was used to separate the second-round primers from first-round PCR mixture during the first-round PCR. The feasibility of the principle was demonstrated using a semi-nested primer system for the PCR analysis of genomic DNA. The first-round PCR reaction mixture was loaded into the capillary and covered by oil. Then, the second-round PCR reaction mixture was layered on top of it. PCR was run in two rounds separated by a centrifugation step that combined the second-round PCR mixture with the first-round products. Amplified products were visualized by fluorescence melting curve analysis. RESULTS: When a dilution series of genomic DNA was used for the single-capillary two-round PCR, 0.1 ng of DNA could consistently be detected. This was a 10-fold increase of sensitivity in comparison with single-round PCR. With the new technique, the first-round reaction mixture was sufficiently separated from second-round primers by the oil layer. CONCLUSIONS: Two-round PCR on the LightCycler using a single closed capillary excluded the possibility of amplification product carry-over. This new technique can easily be adapted for numerous applications, and should show feasibility for many nested primer PCR applications currently in use to the clinical detection of virus-derived DNA.

Detection of Herpes simplex virus DNA by real-time PCR.

Molecular detection of herpes simplex virus (HSV) DNA is recognized as the reference standard assay method for the sensitive and specific diagnosis of central nervous system infections caused by HSV. In this study, a molecular assay based on real-time PCR on the LightCycler (LC) instrument was evaluated and compared with a home-brew molecular assay. The detection limit of the LC assay was determined with 10-fold dilutions of plasmid pS4 with the SalI restriction fragment of the DNA polymerase gene and with the First European Union Concerted Action HSV Proficiency Panel. A total of 59 cerebrospinal fluid (CSF) specimens were investigated for the comparative study. With plasmid pS4, the detection limit of the LC assay was found to be 10(4) copies per ml, i.e., 12.5 copies per run. When samples of the First European Union Concerted Action HSV Proficiency Panel were tested, 2x10(3) to 5x10(3) HSV type 1 genome equivalents (GE) per ml, i.e., 2.5 to 6.3 GE per run, could consistently be detected. There was a correlation between the LC assay and the home-brew assay in 55 of 59 specimens. In conclusion, the LC assay allows very rapid detection of HSV DNA in CSF. It was found to be laborsaving and showed sufficient sensitivity.