The rapid proliferation of genetically modified (GM) crops and the uncontrolled distribution of GM-based food and feed have become a growing global concern, posing new challenges for regulatory oversight and traceability. The traditional PCR detection method cannot simultaneously meet the needs of high-throughput, high-specificity and high-sensitivity detection of transgenic organisms. In this study, a multiplex fluorescence PCR-capillary electrophoresis platform was developed by labeling primers of endogenous and exogenous genes with different fluorescent groups. The system enabled the simultaneous detection of 27 GM-related genes and events in a single analytical workflow. The results demonstrated accurate identification of all seven GM maize events, with correct detection achieved for each individual strain. In addition, the method enabled precise discrimination of a mixed sample containing five GM maize varieties. The assay also achieved a detection sensitivity of 0.1% in gradient mixtures with different GM contents. Our platform integrates a larger number of targets into a single PCR reaction, thereby simplifying the detection workflow while maintaining high analytical performance. Furthermore, the combination of multicolor fluorescence labeling and capillary electrophoresis provides high-resolution fragment discrimination and robust multiplex detection capability. This platform provides a novel and effective tool for rapid detection in food safety of transgenic crops and related areas, and can be applied in import/export inspection, quarantine, and biosafety surveillance.
Yin et al. (Tue,) studied this question.
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