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Multiple-probe-assisted DNA capture and amplification for high-throughput African swine fever virus detection.

Huicong WangHongru PianLihua FanJian LiJifei YangZhi Zheng
Published in: Applied microbiology and biotechnology (2022)
African swine fever (ASF) is one of the most devastating infectious diseases affecting domestic pigs and wild boar. The grave socio-economic impact of African swine fever infection at a global level makes large-scale rapid and robust diagnosis a critical step towards effective control. Here, we describe multiple-probe-assisted DNA capture and amplification technology (MADCAT) - a novel, sensitive, simple, and high-throughput method for detecting ASFV directly from whole blood or other complex matrices. Through a unique DNA capture approach which specifically captures the target DNA onto 96-well plate for subsequent amplification, MADCAT abandons the complicated extraction protocol and achieves ultrafast and high-throughput detection. The sample-to-result time for 96 samples is about 90 min, as compared with the 3-4 h time of the conventional real-time qPCR method. The limit of detection (LOD) of MADCAT is 0.5 copies/μL blood and is 5 times more sensitive than an extraction-based qPCR assay when testing serially diluted whole blood samples. The assay is 100% specific against other common swine pathogens. In the clinical diagnosis of 96 field samples, all 22 positive samples were correctly identified with lower Ct values than extraction-based qPCR, confirming its high diagnostic sensitivity (100%). Owing to its high-throughput, specific high sensitivity, and direct detection features, MADCAT shows great potential for use in large-scale ASFV surveillance and monitoring for effective disease control. KEY POINTS: • No nucleic acid extraction, 100% capture efficiency, and high-throughput • Ultra-high sensitivity of 0.5 DNA copies/μL or 6 DNA copies/reaction • The sample-to-answer time for 96 samples is about 90 min.
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