Specific detection of the Old World screwworm fly, Chrysomya bezziana, in bulk fly trap catches using real-time PCR.

The Old World screwworm fly (OWS), Chrysomya bezziana Villeneuve (Diptera: Calliphoridae), is a myiasis-causing blowfly of major concern for both animals and humans. Surveillance traps are used in several countries for early detection of incursions and to monitor control strategies. Examination of surveillance trap catches is time-consuming and is complicated by the presence of morphologically similar flies that are difficult to differentiate from Ch. bezziana, especially when the condition of specimens is poor. A molecular-based method to confirm or refute the presence of Ch. bezziana in trap catches would greatly simplify monitoring programmes. A species-specific real-time polymerase chain reaction (PCR) assay was designed to target the ribosomal DNA internal transcribed spacer 1 (rDNA ITS1) of Ch. bezziana. The assay uses both species-specific primers and an OWS-specific Taqman((R)) MGB probe. Specificity was confirmed against morphologically similar and related Chrysomya and Cochliomyia species. An optimal extraction protocol was developed to process trap catches of up to 1000 flies and the assay is sensitive enough to detect one Ch. bezziana in a sample of 1000 non-target species. Blind testing of 29 trap catches from Australia and Malaysia detected Ch. bezziana with 100% accuracy. The probability of detecting OWS in a trap catch of 50 000 flies when the OWS population prevalence is low (one in 1000 flies) is 63.6% for one extraction. For three extractions (3000 flies), the probability of detection increases to 95.5%. The real-time PCR assay, used in conjunction with morphology, will greatly increase screening capabilities in surveillance areas where OWS prevalence is low.

Real-time polymerase chain reaction (PCR) assays for the specific detection and quantification of seven Eimeria species that cause coccidiosis in chickens.

Coccidiosis of chickens is an economically important disease caused by infection with species of Eimeria. The oocysts of some of the seven recognized species are difficult to distinguish morphologically and for this reason diagnostic laboratories are increasingly utilizing DNA-based technologies for the specific identification of Eimeria. The real-time PCR provides both sensitivity and speed for the analysis of DNA samples, and the approach has the capability of quantifying DNA. Together with a protocol for the extraction of DNA directly from faecal samples, real-time PCR assays have been established for the detection and quantification of seven species of Eimeria that infect chickens in Australia. The assays target one genetic marker, the second internal transcribed spacer of nuclear ribosomal DNA (ITS-2), use TaqMan MGB technology with species-specific probes, and can be multiplexed in pairs such that the seven species of Eimeria can be screened in four reaction tubes. A test screen of commercial flocks identified more Eimeria-infected chickens than were detected by coproscopic examination for oocysts. These molecular assays can also be used for the quality control of mixed-species vaccines. The ability to multiplex the assays makes them particularly practical for screening samples from chickens with mixed-species infections where the relative abundance of each Eimeria species present is required.