A co-transformation system to produce transgenic grapevines free of marker genes

Abstract

A co-transformation system was developed to produce grapevines free of selectable marker genes. This was achieved by transforming Vitis vinifera L. ‘Thompson Seedless’ somatic embryos with a mixture of two Agrobacterium strains. The first strain contained a binary plasmid with an egfp gene of interest between the T-DNA borders. The second strain harbored the neomycin phosphotransferase ( nptII) gene for positive selection and the cytosine deaminase ( codA) gene for negative selection, linked together by a bi-directional dual promoter complex. Our technique included a short positive selection phase on medium containing 100 mg l −1 kanamycin before subjecting cultures to prolonged negative selection on medium containing 250 mg l −1 5-fluorocytosine. We regenerated 25 stable EGFP expressing transgenic lines. PCR analysis confirmed 18 lines contained only the egfp gene, whereas the remaining contained both egfp and codA/ nptII genes. Presumably, the 18 monogenic lines arose through cross protection by being in close proximity to cells that expressed nptII and thus detoxified kanamycin in the immediate vicinity. This is the first report for grapevine using a combination of positive and negative selection to produce transgenic plants that do not contain marker genes.