Eddy Risseeuw scite author profile

The use of Agrobacterium for gene targeting in plants has been investigated. Leaf protoplasts of five transgenic tobacco lines, containing a T-DNA insertion with a defective npt-II gene at different positions in the plant genome, were transformed via Agrobacterium with a T-DNA containing a npt-II repair gene. After selection for kanamycin resistance and PCR analysis six recombinants were derived from four of the target lines. The recombination frequencies were similar for the different target lines with one recombinant from approximately 3 x 10(5) transformants. Apparently gene targeting is more or less independent of the location of the target construct in the plant genome. Molecular analysis revealed that gene targeting had occurred in five of the six recombinant lines. However precise recombination had occurred in only one line, while in the other four lines restoration of the npt-II gene was accompanied by a deletion of part of the target locus. The sixth recombinant line showed restoration of the npt-II gene of the incoming T-DNA construct which was inserted in the plant genome at a position closely linked to the target locus. The different recombination products favour a model in which recombination is via gene conversion followed by reintegration of the synthesized DNA via homologous or illegitimate recombination rather than a reciprocal exchange of DNA between two cross-overs.

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Gene targeting and instability of Agrobacterium T‐DNA loci in the plant genome

Risseeuw

Dijk

Hooykaas³

1997

The Plant Journal

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To develop a model system for studies of homologous recombination in plants, transgenic Nicotiana tabacum and Nicotiana plumbaginifolia lines were generated harbouring a single target T-DNA containing the negative selective codA gene encoding cytosine deaminase (CD) and the beta-glucuronidase (GUS) gene. Subsequently, the target lines were transformed with a replacement-type T-DNA vector in which the CD gene and the GUS promoter had been replaced with a kanamycin-resistance gene. For both Nicotiana species kanamycin-resistant lines were selected which had lost the CD gene and the GUS activity. One tobacco line was the result of a precise gene targeting event. However, most other lines were selected due to a chromosomal deletion of the target locus. The deletion frequency of the target locus varied between target lines, and could be present in up to 20% of the calli which were grown from leaf protoplasts. T-DNA transfer was not required for induction of the deletions, indicating that the target loci were unstable. A few lines were obtained in which the target locus had been deleted partially. Sequence analysis of the junctions revealed deletion of DNA sequences between microhomologies. We conclude that T-DNAs, which are stable during plant development as well as in transmission to the offspring, may become unstable during propagation in callus tissue. The relationships between callus culture, genetic instability and the process of T-DNA integration and deletion in the plant genome are discussed.

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Nucleotide sequence corrections of the uidA open reading frame encoding β-glucuronidase

Schlaman

Risseeuw

Dijk

et al. 1994

Gene

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Integration of an Insertion-Type Transferred DNA Vector from Agrobacterium tumefaciens into the Saccharomyces cerevisiae Genome by Gap Repair

Risseeuw

Dijk

Hooykaas

1996

Molecular and Cellular Biology

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Recently, it was shown that Agrobacterium tumefaciens can transfer transferred DNA (T-DNA) to Saccharomyces cerevisiae and that this T-DNA, when used as a replacement vector, is integrated via homologous recombination into the yeast genome. To test whether T-DNA can be a suitable substrate for integration via the gap repair mechanism as well, a model system developed for detection of homologous recombination events in plants was transferred to S. cerevisiae. Analysis of the yeast transformants revealed that an insertion type T-DNA vector can indeed be integrated via gap repair. Interestingly, the transformation frequency and the type of recombination events turned out to depend strongly on the orientation of the insert between the borders in such an insertion type T-DNA vector.

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Eddy Risseeuw

Targeted recombination in plants using Agrobacterium coincides with additional rearrangements at the target locus

Gene targeting and instability of Agrobacterium T‐DNA loci in the plant genome

Nucleotide sequence corrections of the uidA open reading frame encoding β-glucuronidase

Integration of an Insertion-Type Transferred DNA Vector from Agrobacterium tumefaciens into the Saccharomyces cerevisiae Genome by Gap Repair

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