T-DNA locus structure in a large population of soybean plants transformed using the Agrobacterium-mediated cotyledonary-node method

摘要

Designing transformation experiments for either functional genomics or crop improvement requires knowledge of the transgene locus structure, number, transmission and expression resulting from a specific transformation method. We recently reported an improvement to the soybean [Glycine max (L.) Merrill] cotyledonary-node transformation method that resulted in the efficient production of transgenic plants. To characterize the transgene loci resulting from this method, we analysed 270 independent T, plants and 95 randomly selected T, progenies for T-DNA locus complexity using Southern analysis. The lines were transformed with Agrobacterium tumefaciens strains LBA4404 or EHA105 carrying the binary plasmids pGPTV, pTOK233, pCAMBIA1303 or pCAMBIA1309, and regenerated in medium supplemented with or without silver nitrate (AgNO3). Analysis in the To generation showed that the number of hpt-hybridizing fragments per plant ranged from 1-15, with 31.5% of the lines having a single hpt-hybridizing fragment. Each primary soybean transformant had, on average, 2.0 unlinked transgene loci and that half of the segregating loci in the T, progenies were single, simple T-DNA insertions. Of the loci containing multiple T-DNA fragments, a low frequency had tandem and inverted repeat T-DNA structures. Integration of binary plasmid backbone sequences occurred in 37% of primary transformants. A. tumefaciens strain , binary plasmid and thiol treatment had no significant effect on transgene locus structure, numbers or expression. Interestingly, exposure of soybean explants to AgNO3, throughout shoot induction and elongation increased T-DNA locus complexity in the primary transformants and decreased silencing of gusA expression in the T-1 generation.