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of RP4 plasmid into Agrobacterium tumefacienspromotes the transfer on solid medium of large virulence-associated plasmids from virulent donor strains to a plasmidless avirulent recipient. Exconjugants were selected for the ability to utilize octopine or nopaline as the sole source of arginine, traits which are coded for by virulence-associated plasmids in the strains employed here. All exconjugants retained the arginine auxotrophy of the recipient strain, and were resistant to ampicillin and kanamycin, drugs to which RP4 confers resistance. Five exconjugant clones from one cross were shown by alkaline sucrose gradient analysis to contain both RP4 plasmid and the large virulence-associated plasmid of the donor strain. All five exconjugants exhibited virulence on carrot, sunflower and kalanchoe plants. These results indicate that virulence and the ability to degrade octopine are plasmid-borne traits in A. tumefaciens strains 15955 and A6, and extend the evidence that large plasmids in A. tumefaciens are vectors of virulence genes.

RP4 PROMOTION OF TRANSFER OF A LARGE AGROBACTERIUM PLASMID WHICH CONFERS VIRULENCE