Event-specific qualitative and quantitative PCR detection methods for transgenic rapeseed hybrids MS1xRF1 and MS1xRF2.

Except for the events RT73, MS8, RF3, and T45, event-specific detection methods for most commercialized genetically modified (GM) rapeseed varieties have not been established, and as a result, the enforcement of genetically modified organism labeling policies has been hindered. The genetically modified rapeseeds, MS1xRF1 and MS1xRF2, are 2 of 11 approved GM-rapeseed varieties for commercialization. In this study, the right border junction fragments between the gene construct and the rapeseed genome of events RF1, RF2, and MS1 were isolated using the commercially available GenomeWalker technology. Homology analysis indicated that the gene construct of RF1 integrated upstream of the nuclease gene, and that of the RF2 and MS1 inserted into the exon region of a gene encoding for an unknown protein. The event-specific primer pairs and corresponding probes were designed on the basis of the revealed right border junction fragments. Then, we successfully developed the identification and quantification methods for the gene-stacked hybrids MS1xRF1 and MS1xRF2 using those primers and probes. The relative limit of detection in the qualitative polymerase chain reaction (PCR) was 0.013% for the RF2 and MS1 assays using 100 ng of rapeseed DNA per reaction and 0.13% for the RF1 assay. The absolute limit of detection in the quantitative PCR was approximately one to two initial copies for each of the three event-specific assays. The evaluation of the real-time PCR assays revealed that the qualitative and quantitative methods developed by focusing on the gene-stacked hybrids MS1xRF1 and MS1xRF2 were highly specific, sensitive, and suitable for samples with a low quantity of DNA.