Abstract
We have developed a novel system for the sensitive detection of nptII genes (kanamycin resistance determinants) including those present in transgenic plant genomes. The assay is based on the recombinational repair of an nptII gene with an internal 10-bp deletion located on a plasmid downstream of a bacterial promoter. Uptake of an nptII gene by transformation restores kanamycin resistance. In Escherichia coli, promoterless nptII genes provided by electroporation were rescued with high efficiency in a RecA-dependent recombinational process. For the rescue of nptII genes present in chromosomal plant DNA, the system was adapted to natural transformation, which favours the uptake of linear DNA. When competent Acinetobacter sp. BD413 (formerly A. calcoaceticus) cells containing the mutant nptII gene on a plasmid were transformed with DNA from various transgenic plants carrying nptII as a marker gene (Solanum tuberosum, Nicotiana tabacum, Beta vulgaris, Brassica napus, Lycopersicon esculentum), kanamycin-resistant transformants were obtained roughly in proportion to the concentration of nptII genes in the plant DNA. The rescue of nptII genes occurred in the presence of a more than 6 × 106-fold excess of plant DNA. Only 18 ng of potato DNA (2.5 × 103 genome equivalents, each with one copy of nptII) was required to produce one kanamycin-resistant transformant. These experiments and others employing DNA isolated from soil samples demonstrate that the system allows reliable and highly sensitive monitoring of nptII genes in transgenic plant DNA and in DNA from environmental sources, such as soil, without the need for prior DNA amplification (e.g. by PCR).
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Received: 20 May 1997 / Accepted: 17 October 1997
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de Vries, J., Wackernagel, W. Detection of nptII (kanamycin resistance) genes in genomes of transgenic plants by marker-rescue transformation. Mol Gen Genet 257, 606–613 (1998). https://doi.org/10.1007/s004380050688
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DOI: https://doi.org/10.1007/s004380050688