Production of herbicide-resistant transgenic maize plants using electroporation of seed-derived embryos

The improvement of commercial maize lines via biotechnological approaches is limited by the lack of a transformation system that is tissue culture free. In this paper, the development of a genetic transformation system is presented using electroporation for gene delivery and seed-derived embryo as the gene target. Plasmid DNA (pBARGUS), which contained the selectable bar gene for resistance to the herbicide Basta and the screenable gus gene, was delivered into enzymatically wounded mature maize embryos via electroporation. Transformed plants were identified by their ability to grow on a selective medium containing 30 mg/L of phosphinothricin. Southern hybridization, plant resistance to the application of Basta, GUS expression, and segregation analysis indicated that a functional bar gene had integrated into the maize genome and was inherited in a mendelian fashion by the progeny.