A highly integrated system with rapid DNA extraction, recombinase polymerase amplification, and lateral flow biosensor for on-site detection of genetically modified crops

Abstract With the large-scale planting of genetically modified (GM) crops, the development of a rapid and convenient method for on-site monitoring GM crops is needed. In this study, a duplex recombinase polymerase amplification (DRPA)-based, quick and simple detection system is presented for on-site detection of GM crops. In this system, a rapid DNA extraction method, a DRPA, and a lateral flow biosensor (LFB) are integrated to allow for rapid DNA extraction and amplification, and fast visualization of the detection results. Using the rapid DNA extraction method, high-quality DNA suitable for RPA and polymerase chain reaction (PCR) was quickly isolated from various crops within 5 min. Utilizing the optimal DRPA assay, the universal screening sequences (Cauliflower mosaic virus 35S promoter [35S] and Agrobacterium tumefaciens NOS terminator [NOS]) were rapidly and simultaneously amplified with high selectivity and sensitivity. The sensitivity threshold of the DRPA assay was ∼10 copies for GM soybean genomic DNA and 100 ng DNA of 0.1% GM soybean. In combination with the LFB in an enclosed cassette, the entire detection process was performed in approximately 20–30 min and eliminated the carryover contamination. No special or expensive equipment was needed for the detection process. The system was successfully applied and validated for on-site detection of GM rice, demonstrating its suitability for on-site testing of GM crops and high potential for application to other fields, especially in low-resource regions that require rapid detection of DNA targets.