Rapid detection of Cryptosporidium spp. in diarrheic cattle feces by isothermal recombinase polymerase amplification assays.

As a zoonotic parasite, Cryptosporidium spp. could cause severe diarrhea mainly in calves and children globally. Monitoring and prevention of Cryptosporidium spp.'s prevalence is of great significance in both economy and public health aspects. In this study, specific primers and probes were designed within the conserved region of 18S rRNA gene for Cryptosporidium spp. and recombinase polymerase amplification assays based on the fluorescence monitoring (real-time RPA) as well as combined with a lateral flow strip (LFS RPA) were developed. Both of the two RPA assays allowed the exponential amplification of the target fragment within 20 min. After incubation on a metal bath at 42 °C, the LFS RPA results were displayed on the lateral flow strip within 5 min while real-time RPA allowed the real-time observation of the results in Genie III at 39 °C. The RPA assays showed high specificity for Cryptosporidium spp. without any cross-reaction with other tested pathogens causing diarrhea in cattle. With the recombinant plasmid DNA containing the 18S rRNA gene of Cryptosporidium spp. serving as a template, the limit of detection for real-time RPA and LFS RPA assays were 14.6 and 12.7 copies/reaction, respectively. Moreover, the RPA assays were validated by testing diarrheic cattle fecal samples and compared with a real-time PCR. The positive ratio of Cryptosporidium spp. was 24.04 % (44/183) and 26.23 % (48/183) in both RPA assays and real-time PCR assay, respectively, and the kappa coefficient value was 0.942. The diagnostic specificity and diagnostic sensitivity of both RPA assays were 100 % and 91.67 %, respectively. Forty-one of 48 positive samples were successfully sequenced and four Cryptosporidium species were detected, including C. parvum (n = 20), C. andersoni (n = 17), C. bovis (n = 3) and C. ryanae (n = 1). The developed RPA assays are easy to operate and faster to obtain the detection results, and they are suiting for the point-of-care detection and facilitating the prevention and control of Cryptosporidium spp. infections.

Development of the isothermal recombinase polymerase amplification assays for rapid detection of the genus Capripoxvirus.

Sheeppox virus (SPPV), goatpox virus (GTPV) and lumpy skin disease virus (LSDV) belong to the genus Capripoxvirus (CaPV), and are important pathogens of sheep, goat and cattle, respectively. Rapid and reliable detection of CaPV is critical to prevent its spread and promote its eradication. This study aimed to develop the recombinase polymerase amplification (RPA) assays combined with real-time fluorescence (real-time RPA) and naked-eye visible lateral flow strip (LFS RPA) for rapid detection of CaPV. Both developed RPA assays worked well at 39 °C within 20 min. They were highly specific for the detection of GTPV, SPPV and LSDV, while no cross-reactivity was observed for other non-targeted pathogens and genomic DNA of goat, sheep and cattle. The limit of detection for real-time RPA and LFS RPA were 1.0 × 102 and 1.0 × 101 copies per reaction, respectively. In the artificially contaminated samples with GTPV, the detection results of RPA assays were consistent with those of real-time PCR. For 15 clinical samples, LSDV was detected by real-time RPA, LFS RPA and real-time PCR in 13, 15 and 15 samples, respectively. The developed RPA assays were specific, sensitive, and user-friendly for the rapid detection of CaPV, and could be a better alternative method applied in low-resources settings.

Rapid detection of duck ingredient in adulterated foods by isothermal recombinase polymerase amplification assays.

Duck is often used in meat fraud as a substitute for more expensive meats. Rapid detection of duck ingredient in meat products is of great significance for combating meat fraud and safeguarding the interests of consumers. Therefore, we aim to develop duck-specific recombinase polymerase amplification (RPA)-based assays for the rapid detection of duck ingredient in animal-derived foods. Using Cytb gene as target, the real-time RPA and RPA combined with lateral flow strips (LFS RPA) were developed successfully for the rapid detection of ducks in 20 min at 39 °C and 40 °C, respectively. The assays did not show cross-reactions with 6 other livestock and poultry. The developed RPA assays could detect 10 pg duck genomic DNA per reaction and 0.1 % (w/w) duck ingredient in duck and mutton mixed powder within 30 min, including a rapid nucleic acid extraction. Furthermore, duck ingredient could be detected in 30 different actual foods including heat-processed meats and blood products. Therefore, duck-specific real-time RPA and LFS RPA assays were successfully developed with good specificity and sensitivity, which could enable rapid detection of duck ingredient in the field and provide technical support for combating the meat fraud.

Direct and Rapid Detection of Mycoplasma bovis in Bovine Milk Samples by Recombinase Polymerase Amplification Assays.

This study aimed to detetct Mycoplasma bovis (M. bovis) in bovine milk quickly and directly by developing and validating isothermal recombinase polymerase amplification (RPA) assays. Targeting the uvrC gene of M. bovis, an RPA assay based on the fluorescence monitoring (real-time RPA) and an RPA assay combined with a lateral flow strip (LFS RPA) were conducted. It took 20 min for the real-time RPA to finish in a Genie III at 39°C, and 15 min were required to perform the LFS RPA in an incubator block at 39°C, followed by the visualization of the products on the lateral flow strip within 5 min. Both of the two assays showed high specificity for M. bovis without any cross-reaction with the other tested pathogens. With the standard recombinant plasmid pMbovis-uvrC serving as a template, both RPA assays had a limit of detcion of 1.0 × 101 copies per reaction, equivalent to that of a real-time PCR assay. In the 65 milk samples collected from cattle with mastitis, the M. bovis genomic DNA was detected in 24 samples by both the real-time RPA and the LFS RPA assays. The developed RPA assays could detect M. bovis in bovine milk in an efficient, convenient, and credible manner as attractive and promising tools, and the assays would be helpful in the rapid response to M. bovis infection causing bovine mastitis.

Rapid and sensitive detection of Mycoplasma hyopneumoniae by recombinase polymerase amplification assay.

Mycoplasma hyopneumoniae is the etiological agent of swine enzootic pneumonia, which is associated with high economic losses in swine production worldwide. In this study, recombinase polymerase amplification assays using real-time fluorescence detection (real-time RPA) and lateral flow strip detection (LFS RPA) were developed to detect M. hyopneumoniae based on the conserved region of the mhp165 gene. Real-time RPA was performed in Genie III at 39 °C for 20 min, while the LFS RPA was performed in an incubator block at 39 °C for 15 min, and the products were visible on the LFS inspected by the naked eyes within 2 min. Both assays were specific for M. hyopneumoniae, as there were no cross-reactions with other pathogens tested. The limit of detection of both RPA assay was 5.0 × 102 fg of M. hyopneumoniae DNA, which was the same as that of a real-time PCR assay. Of the 146 clinical samples, M. hyopneumoniae DNA was identified in 41, 42, and 47 samples by the real-time RPA, LFS RPA and real-time PCR, respectively. Compared to real-time PCR, the real-time RPA and LFS RPA assays showed diagnostic specificity of 100%, a diagnostic sensitivity of 87.23% and 89.36%, and a kappa value of 0.903 and 0.909, respectively. These results have demonstrated that the developed RPA assays are suitable for rapid and reliable detection of M. hyopneumoniae in diagnostic laboratory and at point-of-need facility.