Abstract
Molecular characterization of sequence flanking exogenous fragment insertion is essential for safety assessment and labeling of genetically modified organism (GMO). In this study, the T-DNA insertion sites and flanking sequences were identified in two newly developed transgenic glyphosate-tolerant soybeans GE-J16 and ZH10-6 based on whole genome sequencing (WGS) method. More than 22.4 Gb sequence data (∼21 × coverage) for each line was generated on Illumina HiSeq 2500 platform. The junction reads mapped to boundaries of T-DNA and flanking sequences in these two events were identified by comparing all sequencing reads with soybean reference genome and sequence of transgenic vector. The putative insertion loci and flanking sequences were further confirmed by PCR amplification, Sanger sequencing, and co-segregation analysis. All these analyses supported that exogenous T-DNA fragments were integrated in positions of Chr19: 50543767–50543792 and Chr17: 7980527–7980541 in these two transgenic lines. Identification of genomic insertion sites of G2-EPSPS and GAT transgenes will facilitate the utilization of their glyphosate-tolerant traits in soybean breeding program. These results also demonstrated that WGS was a cost-effective and rapid method for identifying sites of T-DNA insertions and flanking sequences in soybean.
Highlights
Modified crops (GM crops) were first commercialized in 1996 and since they have been grown and consumed for two decades
The results showed that observed ratios of glyphosate tolerante and sensitive plants in these populations were all well fitted to 3:1 ratio with χ2 values range from 0 to 1.922 (Table 2)
polymerase chain reaction (PCR) amplifications of exogenous genes suggested the existance of them cosegragated with the tolerance of glyphosate
Summary
Modified crops (GM crops) were first commercialized in 1996 and since they have been grown and consumed for two decades. During this period, a large number of transgenic plants have been developed and released (Liang et al, 2014). The cumulative hectarage of biotech crops has exceeded two billion hectares globally (James, 2015), and more and more foods and feeds derived from GM plants have been entering into supply chains. A Abbreviations: GMO, genetically modified organism; NGS, next-generation sequencing; PCR, polymerase chain reaction; WGS, whole genome sequencing
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