Species identification and strain differentiation of clinical Candida isolates using the DiversiLab system of automated repetitive sequence-based PCR.

The DiversiLab system, which uses repetitive sequence-based PCR (rep-PCR) to genotype micro-organisms, was evaluated as a molecular typing tool for members of the genus Candida. Initially, 41 clinical Candida spp. (7 Candida krusei, 10 Candida parapsilosis, 7 Candida albicans, 10 Candida tropicalis and 7 Candida glabrata), previously identified at the species level by morphological and biochemical analysis, were analysed with the DiversiLab system. Species identification was confirmed by DNA sequence analysis of the contiguous internal transcribed spacer (ITS) region (ITS1-5.8S-ITS2). On the basis of an 80 % similarity threshold, rep-PCR consistently clustered like species and this set of isolates, along with five ATCC reference strains, was used to create a DNA fingerprint library with the DiversiLab software. Subsequently, an additional set of 115 clinical Candida isolates, identified biochemically as C. albicans (n=94), C. glabrata (n=8), C. parapsilosis (n=5), C. tropicalis (n=3), C. krusei (n=3) and Candida lusitaniae (n=2), isolated at a regional reference laboratory, were typed using DiversiLab. One hundred and six of these isolates clustered with members of the Candida library at >80 % similarity and thus could be assigned species identification, and initial calculations showed that identification via rep-PCR fingerprinting was 95 % concordant (101/106) with the biochemical/morphological identification. However, ITS region sequencing of the five discrepant samples, as well as the nine isolates that were <80 % similar to the database samples, showed that nine were misidentified with traditional biochemical/morphological methods. For the misidentified isolates, the sequence-based identification was in agreement with the DiversiLab clustering, yielding an actual correlation of >99 %. As traditional techniques can take several days to provide information about Candida at the genus/species level, genotyping with the DiversiLab system holds promise for more-rapid speciation of members of this genus. This system may also be useful for epidemiological studies such as source tracking that require Candida subspecies discrimination.

Microbial DNA typing by automated repetitive-sequence-based PCR.

Repetitive sequence-based PCR (rep-PCR) has been recognized as an effective method for bacterial strain typing. Recently, rep-PCR has been commercially adapted to an automated format known as the DiversiLab system to provide a reliable PCR-based typing system for clinical laboratories. We describe the adaptations made to automate rep-PCR and explore the performance and reproducibility of the system as a molecular genotyping tool for bacterial strain typing. The modifications for automation included changes in rep-PCR chemistry and thermal cycling parameters, incorporation of microfluidics-based DNA amplicon fractionation and detection, and Internet-based computer-assisted analysis, reporting, and data storage. The performance and reproducibility of the automated rep-PCR were examined by performing DNA typing and replicate testing with multiple laboratories, personnel, instruments, DNA template concentrations, and culture conditions prior to DNA isolation. Finally, we demonstrated the use of automated rep-PCR for clinical laboratory applications by using isolates from an outbreak of Neisseria meningitidis infections. N. meningitidis outbreak-related strains were distinguished from other isolates. The DiversiLab system is a highly integrated, convenient, and rapid testing platform that may allow clinical laboratories to realize the potential of microbial DNA typing.