Abstract
Molecular characterization of genetically modified plants can provide crucial information for the development of detection and identification methods, to comply with traceability, and labeling requirements prior to commercialization. Detailed description of the genetic modification was previously a challenging step in the safety assessment, since it required the use of laborious and time-consuming techniques. In this study an accurate, simple, and fast method was developed for molecular characterization of genetically modified (GM) plants, following a user-friendly workflow for researchers with limited bioinformatic capabilities. Three GM events from a diverse array of crop species—perennial ryegrass, white clover, and canola—were used to test the approach that exploits long-read sequencing by the MinION device, from Oxford Nanopore Technologies. The method delivered a higher degree of resolution of the transgenic events within the host genome than has previously been possible with the standard Illumina short-range sequencing strategies. The flanking sequences, copy number, and presence of backbone sequences, and overall transgene insertion structure were determined for each of the plant genomes, with the additional identification of moderate-sized secondary insertions that would have previously been missed. The proposed workflow takes only about 1 week from DNA extraction to analyzed result, and the method will complement the existing approaches for molecular characterization of GM plants, since it makes the process faster, simpler, and more cost-effective.
Highlights
Implementation of plant biotechnology has enabled targeted alterations of crop traits through genetic transformation
We demonstrate how one can rapidly and inexpensively complete the full molecular characterization of a transgenic event by using a single Oxford Nanopore Technologies (ONT) MinION flowcell
The MinION device from ONT was tested for molecular characterization of genetically modified (GM) crops using a common analytical process
Summary
Implementation of plant biotechnology has enabled targeted alterations of crop traits through genetic transformation. The first step in any risk evaluation of genetically modified (GM) plants, prior to their approval for release into the market, is the molecular characterization of the transgene(s) Such characterization must include identification of the locus/loci of the genetic modification, detailing the flanking genomic regions, copy number of the inserted transgene expression cassette, and endogenous host gene interruptions by the transgenic DNA (Schouten et al, 2017). The most universally accepted techniques for molecular characterization of new transgenic events have been DNA blot analysis, along with polymerase chain reaction (PCR) (Li et al, 2017) These methods can attempt to determine transgene copy number but fail to provide a detailed structure of the insertion
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