The nptII(+) gene present in the genome of transgenic potato plants transforms naturally competent cells of the soil bacteria Pseudomonas stutzeri and Acinetobacter BD413 (both harboring a plasmid with an nptII gene containing a small deletion) with the same high efficiency as nptII(+) genes on plasmid DNA (3x10(-5)-1x10(-4) transformants per nptII(+)) despite the presence of a more than 10(6)-fold excess of plant DNA. However, in the absence of homologous sequences in the recipient cells the transformation by nptII(+) dropped by at least about 10(8)-fold in P. stutzeri and 10(9)-fold in Acinetobacter resulting in the latter strain in < or =1x10(-13) transformants per nptII(+). This indicated a very low probability of non-homologous DNA fragments to be integrated by illegitimate recombination events during transformation.