Abstract
Summary Homologous recombination in plants was studied using an extrachromosomal recombination assay in which intermolecular homologous recombination between two complementary plasmids restored a selectable marker gene. Several vectors containing an insertion into or deletions within the coding region of the neomycin phosphotransferase (NPT-II) gene were designed. Plasmids were introduced, in pairwise combinations, into protoplasts and homologous recombination events were measured by counting the number of NPT-ll-resistant colonies. A 10-fold increase in recombination frequency was observed in Petunia hybrids RL01 compared to Nicotiana tabacum SRI. This difference occurred when one or both of the co-transferred recombination plasmids was offered in a circular form. Apart from such specific differences between two cultivars from different species, a two-to fivefold increase in recombination frequencies was observed when the genomic TBS (transformation booster sequence) fragment from P. hybrids was added onto one of the transferred plasmids. TBS-specific stimulation of recombination was observed in Petunia RL01. These data suggest that two different recombination pathways may be present in plants.
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