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Stability of transgenes and presence of N6 methyladenine DNA in transformed wheat cells
Authors:Dong Fang Chen  Philip J. Dale  John S. Heslop-Harrison  John W. Snape  Wendy Harwood  Samantha Bean  Philip M. Mullineaux
Affiliation:John Innes Centre for Plant Science Research, Colney Lane, Norwich NR4 7UH, UK
Abstract:A number of stably transformed wheat cell lines were obtained using two different direct gene transfer techniques. When integration of the foreign genes was investigated in DNA samples taken at 10 months post-selection, complicated profiles of transgene bands were observed in Southern blot analysis. Among these, a number of common bands were identified showing similar hybridization patterns between independently transformed cell lines. This type of hybridization pattern has been a common observation and is usually interpreted as concatameric rearrangement of integrated DNA. However, when integration was reinvestigated with DNA samples taken at 30 months postselection, the hybridization pattern changed and most of the common bands had disappeared. Further analysis using a set of methylation-sensitive enzymes revealed that the DNA represented by the common bands was N6-adenine methylated (m6A DNA), and there was even m6A DNA in some 30 month samples. Although the source of m6A DNA in the wheat cultures was not clearly established, the data indicate that transformation of an endophyte (e.g. a mycoplasma-like organism) may have occurred at the same time as the transformation of wheat cells. The integration pattern of undermethylated transgenes in the transformed cells became simpler and clearer after treating the DNA preparations with Dpnl, which only cuts m6A DNA. The implications of these data for other methods of inoculating cereals with DNA are discussed.
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