Ultrasensitive detection of Bacillus anthracis by real time PCR targeting a polymorphism in multi-copy 16S rRNA genes and their transcripts

Abstract

AbstractThe anthrax pathogen Bacillus anthracis poses a significant threat to human health. Identification of B. anthracis is challenging because of the bacterium’s close genetic relationship to other Bacillus cereus group species. Thus, molecular detection is founded on species-specific PCR targeting single-copy genes. Here, we validated a previously recognized multi-copy target, a species-specific SNP present in 2-5 copies in every B. anthracis genome analyzed. For this, a hydrolysis probe-based real time PCR assay was developed and rigorously tested. The assay was specific as only B. anthracis DNA yielded positive results, was linear over 9 log10 units and was sensitive with a limit of detection (LoD) of 2.9 copies/reaction. Though not exhibiting a lower LoD than established single copy PCR targets (dhp61 or PL3), the higher copy number of the B. anthracis–specific 16S rRNA gene allele afforded ≤2 unit lower threshold (Ct) values. To push the detection limit even further, the assay was adapted for reverse transcription PCR on 16S rRNA transcripts. This RT-PCR assay was also linear over 9 log10 units and was sensitive with a LoD of 6.3 copies/reaction.In a dilution-series of experiments, the 16S RT-PCR assay achieved a thousand-fold higher sensitivity than the DNA-targeting assays. For molecular diagnostics, we recommend a real time RT-PCR assay variant in which both DNA and RNA serve as templates (thus, no requirement for DNase treatment). This will at least provide results equaling the DNA-based implementation if no RNA is present but will be superior even at the lowest residual rRNA concentrations.