Christiane Genetello

Ti plasmid vector for the introduction of DNA into plant cells without alteration of their normal regeneration capacity.

A Ti plasmid mutant was constructed in which all the on‐cogenic functions of the T‐DNA have been deleted and replaced by pBR322. This Ti plasmid, pGV3850, still mediates efficient transfer and stabilization of its truncated T‐DNA into infected plant cells. Moreover, integration and expression of this minimal T‐DNA in plant cells does not interfere with normal plant cell differentiation. A DNA fragment cloned in a pBR vector can be inserted in the pGV3850 T‐region upon a single recombination event through the pBR322 region of pGV3850 producing a co‐integrate useful for the transformation of plant cells. Based upon these properties, pGV3850 is proposed as an extremely versatile vector for the introduction of any DNA of interest into plant cells.

Genetic analysis of the individual T-DNA genes of Agrobacterium tumefaciens: further evidence that two genes are involved in indole-3-acetic acid synthesis

SummaryThe T-DNA genes of Ti plasmids of Agrobacterium tumefaciens can induce tumorous growth on a wide range of dicotyledonous plants. We subcloned the individual onc genes of the pTiC58 T-DNA and reintroduced them in the T-region of the Ti plasmid gene vector pGV3850 (from which the onc genes had been removed (Zambryski et al. 1983)). These experiments were designed to analyze the contribution of each onc gene to the development of a tumor and have fulfilled two purposes. First, it was found that only the strains carrying gene 4 produced tumors without the aid of other T-DNA genes; in cell culture these tumors sprout shoots. Second, the shoot-forming phenotype of tumors induced by agrobacteria carrying Ti plasmids defective in either gene 1 or gene 2 can be restored to wildtype phenotype by simple coinfection with Agrobacterium strains whose Ti plasmids contain respectively only gene 2, or only gene 1 in their T-region. A parallel experiment demonstrated that the combined action of genes 1 and 2 is sufficient to induce tumor formation on tobacco plantlets.The external addition of α-naphthalene acetic acid (NAA) restores to wild-type the phenotype of tumors induced by mutants in gene 1 or in gene 2. However, α-naphthalene acetamide can only restore to wild-type the phenotype of mutants in gene 1. These data indicate that the product of the T-DNA gene 2 participates in the conversion of α-naphthalene acetamide to a biologically active auxin, presumably NAA, and suggest that gene 1 codes for an enzyme involved in the synthesis of an indole-3-acetyl derivative.

Agrobacterium tumefaciens-mediated transformation of Artemisia annua L. and regeneration of transgenic plants

SummaryA transformation system was developed for Artemisia annua L. plants. Leaf explants from in vitro grown plants developed callus and shoots on medium with 0.05 mg/L naphthaleneacetic acid and 0.5 mg/L N6-benzyladenine after transformation with the C58C1 RifR (pGV2260) (pTJK136) Agrobacterium tumefaciens strain. A concentration of 20 mg/L kanamycin was added in order to select transformed tissue. Kanamycin resistant shoots were rooted on naphthaleneacetic acid 0.1 mg/L. Polymerase chain reactions and DNA sequencing of the amplification products revealed that 75% of the regenerants contained the foreign genes. 94% of the transgenic plants showed a β-glucuronidase-positive response.

Primary structure of a hormonally regulated β-glucanase of Nicotiana plumbaginifolia

A cDNA clone for a hormonally regulated beta-glucanase from Nicotiana plumbaginifolia has been isolated by using an oligodeoxynucleotide probe, synthesized to match the previously determined N-terminal amino acid sequence. The cDNA has the complete sequence of the mature protein and contains at least part of a hydrophobic signal peptide. At the amino acid level, the beta-glucanase of N. plumbaginifolia is 73% homologous to a beta(1,3)-glucanase from tobacco and 52% homologous to a beta(1,3;1,4)-glucanase from barley. Southern-blot analysis clearly demonstrated that N. plumbaginifolia contains at least two related genes encoding beta-glucanase. The extent of the complete signal peptide of the cloned beta-glucanase was determined by sequencing part of the corresponding gene. Northern analysis showed that the expression of the beta-glucanase gene is influenced by auxins and cytokinins.

Sequence context of the T-DNA border repeat element determines its relative activity during T-DNA transfer to plant cells

SummaryWe present a detailed analysis of the function of the right and left T-DNA border regions of the nopaline Ti plasmid of Agrobacterium tumefaciens. An avirulent deletion of the right border of the nopaline Ti plasmid (pGV3852) was used as an acceptor for 14 different T-DNA border constructs. The functional activities of these constructs were assayed by their ability to restore virulence, i.e. transformation on inoculated plants. Tumorigenicities were measured in several independent experiments over a 2 year period and the statistical significance of their relative levels was evaluated. The data indicate: (i) the entire sequence of the 25 bp direct repeat of the T-DNA is required to provide an efficient substrate for mediating T-DNA transfer events; deletion derivatives of either the conserved or the vaiable domain of the repeat are defective in T-DNA transfer; (ii) while the 25 bp direct repeat alone can promote the T-DNA transfer, the flanking sequences of the repeats enhance (on the right) or attenuate (on the left) their activity; and (iii) tumorigenicity measurements vary depending on the plant assay system: potato discs are more sensitive than wounded tobacco leaves in detecting differences in T-DNA border activity.

Genetic evidence that the tryptophan 2-mono-oxygenase gene of Pseudomonas savastonoi is functionally equivalent to one of the T-DNA genes involved in plant tumour formation by Agrobacterium tumefaciens

SummaryThe combined activities of the Agrobacterium tumefaciens T-DNA genes 1 and 2 are sufficient to induce tumorous growth on several plants, by introducing a new auxin biosynthetic pathway in infected cells. We have isolated Nicotiana tabacum plants containing only gene 1 or gene 2. These plants, respectively called rG1 and rG2, grow and develop in a normal fashion, indicating that neither the gene 1 nor the gene 2 activity by itself interferes with the endogenous auxin metabolism in plants. Previous evidence indicated that the auxin biosynthetic pathway of Pseudomonas savastanoi and that proposed to be encoded by the T-DNA of Agrobacterium tumefaciens are similar. When rG2 plants were infected with non-oncogenic A. tumefaciens or Escherichia coli strains that harbour the P. savastanoi iaaM gene (responsible for indole-3-acetamide synthesis) root and callus formation at the infection site was readily observed. This shows that the product of iaaM, indole-3-acetamide, is an in vivo substrate for the gene 2 encoded enzyme and supports the proposal that the gene 1-encoded enzyme is involved in the synthesis of indole-3-acetamide in transformed plants. This result offers new insights in evolution of bacteria and plants involved in pathogenic and symbiotic interactions.

Plant cells induce transcription of the Agrobacterium tumefaciens nopaline pTiC58 virulence region

Abstract We have analyzed the transcription of the nopaline pTiC58 virulence ( vir ) region, known to be essential for T-DNA transfer, in Agrobacterium tumefaciens cocultivated with plant cell suspensions or with plant cell protoplasts. Total RNA prepared from the cocultivated Agrobacteria , was 5′-labeled in vitro with 32 P and polynucleotide kinase and used as hybridization probe to different nitrocellulose-bound subfragments of the nopaline vir region. We show that plant cells induce the transcription of the vir region but have no effect on the bacterial transcription of the T-DNA. Different parts of the vir region are transcribed at different levels. The results demonstrate 13 differentially transcribed regions of the nopaline Ti plasmid vir region; several regions may represent transcripts which differ from those specified by the vir region of the related octopine Ti plasmid.