Detection of viral aerosols by use of real-time quantitative PCR

PCR quantification is regarded as one of the most promising techniques for real-time identification of bio-aerosols. We have, therefore, validated a QPCR assay for quantification of a viral aerosol sample using the double-stranded DNA-binding dye SYBR green I, an economical alternative for quantification of target microorganisms. To achieve this objective we used mycobacteriophage D29 as model organism. Phage D29 aerosol was produced in an aerosol cabinet and then collected by use of an AGI liquid sampler. A standard curve was created by use of purified genomic DNA from the phage in liquid culture of known concentration measured by titration. To prevent false-positive results caused by formation of primer–dimers, an additional data-acquisition step was added to the three-step QPCR procedure; the new technique was called four-step QPCR. The standard curve was then used to quantify the total amount of phage D29 in liquid culture and aerosol samples. For liquid culture samples there was no significant difference (P > 0.05) between results from quantification of the virus using double-agar culture and QPCR. For aerosol samples, however, the result determined by the QPCR method was significantly (P < 0.05) higher than that from the double-agar culture method. The four-step SYBR green I QPCR method is a quick quantitative method for mycobacteriophage D29 aerosol. We believe that QPCR using SYBR green I dye will be an economical method for detection of airborne bio-aerosols.