A. Depicker

Transfection and transformation of Agrobacterium tumefaciens

SummaryThe freeze thaw transfection procedure of Dityatkin et al. (1972) was adapted for the transfection and transformation of A. tumefaciens. Transfection of the strains B6S3 and B6-6 with DNA of the temperate phage PS8cc186 yielded a maximum frequency of 2 10-7 transfectants per total recipient population. In transformation of the strain GV3100 with the P type plasmid RP4 a maximum frequency of 3.5 10-7 transformants per total recipient population was obtained. Agrobacterium Ti-plasmids were introduced in the strain GV3100 with a maximal efficiency of 4.5 10-8. These experiments provide further evidence that the Ti-plasmid is responsible for the oncogenic properties of A tumefaciens and for its capacity to induce “opine” synthesis in Crown-gall plant cells.

AFLP markers reveal high polymorphic rates in ryegrasses (Lolium spp.)

An evaluation was performed of the potential use of AFLP markers to reveal polymorphisms among Lolium perenne plants with different degrees of kinship. Radioactive and fluorescent detection techniques were applied. The use of a fluorescent detection approach contributed greatly to the speed and ease of conducting and interpreting the AFLP patterns. The great discriminative power of AFLP markers and their capacity to represent genetic relationships among ryegrass plants was shown. Despite the high polymorphic value of the AFLP markers, standard statistical tests could not differentiate between two gene pools derived from different breeding programmes. It proved also impossible to correlate fodder and turf phenotypes with AFLP distance data. A very important point revealed by our data is the high degree of genetic diversity within commercial ryegrass varieties. Our findings are relevant to any outcrossing crop with a breeding strategy based on the production of synthetic populations.

The functional organization of the nopaline A. tumefaciens plasmid pTiC58

Abstract We have employed the P type plasmid RP4 and the transposons Tn1 and Tn7 to isolate insertion and deletion mutations in the nopaline Ti-plasmid pTiC58. Mutations that inactivate all known Ti phenotypes have been located on the physical map. Most importantly, we have positioned several regions involved in the determination of oncogenicity. They correspond to regions of homology between octopine and nopaline plasmids. One of these regions is part of the T-DNA, the Ti-plasmid DNA present in transformed plant cells. There are also segments of the T-DNA that are not essential for oncogenicity. One of these determines the biosynthesis of nopaline in tumors. The latter regions might allow insertion of foreign DNA that can then be introduced into plant cells.

Molecular cloning of overlapping segments of the nopaline Ti-plasmid pTiC58 as a means to restriction endonuclease mapping

Abstract The nopaline Ti-plasmid pTiC58 of Agrobacterium tumefaciens C58 was characterized by restriction endonuclease analysis. Fragments generated by HindIII (52), HpaI (17), SmaI (37), KpnI (20), BamHI (>50), EcoRI (>50), and XbaI (9) were arranged into a circular map corresponding to a genome size of 132 × 106 D. The map was established by analysis of large overlapping plasmid segments of pTiC58 derived from a partial HindIII digest and cloned in the vector pBR322. Taken together, the segments present in the 33 hybrid plasmids obtained cover the entire pTiC58 DNA except for 2% located between map coordinates 22 and 24.7 T. The restriction map of the pTiC58 region containing the T-DNA is presented in greater detail.

Frequencies of simultaneous transformation with different T-DNAs and their relevance to the Agrobacterium/plant cell interaction

SummaryWe investigated whether the efficiency of transformation of plant cells by Agrobacterium tumefaciens during cocultivation is limited by the properties of the plant cells or by the infecting bacteria.Therefore, tobacco protoplasts were infected by cocultivation with two different agrobacteria strains carrying Ti plasmids with distinguishable T-DNAs. These T-DNAs cotransform plant cells at a frequency equal to the product of their independent transformation frequencies, which indicates that all plant cells are equally competent. On the other hand, when these T-DNAs are located on the same Ti plasmid vector within one bacterial strain, the cotransformation frequency is significantly higher than the product of the single transformation frequencies. We interpret these results to indicate that transformation is limited more by the establishment of effective bacteria/plant cell interaction than by (i) the process of DNA integration and (ii) by the number of plant cells capable of being transformed by Agrobacterium. We found that most plant cells are transformed by only one or a few agrobacteria. Analysis of the number of T-DNA copies in these clonally transformed lines indicates amplification of the original, infecting T-region copy.

Internal organization, boundaries and integration of Ti-plasmid DNA in nopaline crown gall tumours☆☆☆

Abstract Eight lines of nopaline crown gall tumours were analysed by Southern (1975) blot hybridization to determine the size, internal organization, boundaries, possible plant DNA integration and accuracy of transfer of the Ti-plasmid DNA segment (T-DNA) transferred from Agrobacterium tumefaciens to crown gall plant cells. The conservation of this T-DNA in tumour tissues and tissues derived from plants regenerated from crown gall teratomas was also studied. A defined plasmid segment (the T-region) of about 15 × 10 6 M r is accurately transferred and integrated into nuclear plant DNA without any major internal rearrangements. Furthermore, common composite fragments covalently linking the left and the right boundary of the T-region were observed, thus indicating either tandem duplications of integrated T-DNA segments or polymeric circles of T-DNA segments. The length of the transferred segment is not determined by size, since insertions in the T-region were found to be co-transferred with the T-DNA. The results indicate that sequences at the boundaries of the region may play a role in the transfer mechanism, although the right boundary could be replaced by a Tn1 insertion. Cells from plants regenerated from crown gall teratomas were shown to contain T-DNA without internal rearrangements but with minor modifications of the boundary fragments. In plants obtained from meiotic products of teratomaderived regenerated plants no T-DNA was observed.

Assembly of an antibody and its derived antibody fragment in Nicotiana and Arabidopsis.

The yield and assembly of an IgG1 antibody and its derived Fab fragment were compared inNicotiana andArabidopsis. The results obtained showed a lot of interclonal variability. For 45% of the primary transgenic calluses, antigen-binding entities represented less than 0.1% of the total soluble protein (TSP). Only two of the 103 analysed transformants contained more than 1% of antigen-binding protein, with 1.26% being the highest yield. Analogous amounts of complete antibody and Fab accumulated in primary callus tissue. Moreover, yields were in the same range for both species as far as primary callus tissue is concerned. However, the accumulation of the Fab fragment in leaf tissue of regenerated plants differed significantly betweenNicotiana andArabidopsis. The Fab fragment accumulated to only 0.044% of TSP inNicotiana leaves but up to 1.3% inArabidopsis leaves. Furthermore, both species showed differences in the assembly pattern of the complete antibody. WhereasArabidopsis contained primarily fully assembled antibodies of 150 kDa,Nicotiana showed an abundance of fragments in the 50 kDa range.

Interactions and DNA transfer between Agrobacterium tumefaciens, the Ti-plasmid and the plant host.

Agrobacterium tumefaciens is a gram-negative bacterium with the unique capacity to induce neoplasmic transformations in dicotyledonous plants. Recently, both the mechanism and the biological significance of this transformation have been elucidated. Agrobacterium tumefaciens strains contain a large extrachromosomal DNA plasmid (the Ti-plasmid). This Ti-plasmid is responsible for the oncogenic properties of Agrobacterium strains. A particular segment of the Ti-plasmid, containing information determining the tumorous growth pattern and the synthesis of so-called ‘opines’, e. g. octopine (N-α-(D-l-carboxyethyl)-L-arginine) and nopaline (N-α-(l, 3-dicarboxypropyl)-L-arginine), is transferred and stably maintained and expressed in the transformed plant cells. This phenomenon can be understood as a ‘genetic colonization’ of the plant cells by bacterial plasmid DNA so that the transformed plant cells will produce and secrete into the medium amino acid derivatives (the opines) that Ti-plasmid carrying agrobacteria can selectively use as carbon and nitrogen sources.

Physical mapping of DNA base sequence homologies between an octopine and a nopaline Ti plasmid of Agrobacterium tumefaciens.

A detailed physical map of the homologous and non-homologous regions between an octopine (pTiAch5) and a nopaline (pTiC58) Ti plasmid was determined by Southern type hybridization and by electron microscope heteroduplex analysis. This map was correlated with the functional maps of both plasmids. For the Southern type hybridizations, total labelled pTiAch5 DNA was hybridized to Southern blots of restriction fragments from a series of hybrid plasmids containing overlapping segments of the whole TiC58 plasmid. Reciprocal experiments were also carried out. The common sequences between the two plasmids (±30%) are restricted to four major stretches of homology. Analysis of heteroduplexes between pTiAch5 and several hybrid plasmids containing specific regions of pTiC58, and of heteroduplexes between hybrid plasmids derived from pTiC58 and pTiAch5 provided a detailed map of the fine structure of the four major homology regions. Two regions are distributed in the same relative order as compared to a common reference point, and two are inversed. Three regions contain a number of small, mostly asymmetrical substitution loops. Several regions distributed over the common DNA sequences were found to be partially homologous.

Plant chromosome/marker gene fusion assay for study of normal and truncated T-DNA integration events

SummaryDuring Agrobacterium tumefaciens infection, the T-DNA flanked by 24 by imperfect direct repeats is transferred and stably integrated into the plant chromosome at random positions. Here we measured the frequency with which a promoterless reporter gene is activated after insertion into the Nicotiana tabacum SR1 genome. When adjacent to the right or left T-DNA border sequences, at least 35% of the transformants express the marker gene, suggesting preferential T-DNA insertion (>70%) in transcriptionally active regions of the plant genome. When the promoterless neomycin phosphotransferase II (nptII) gene is located internally in the T-DNA, the activation frequency drops to 1% since gene activation requires T-DNA truncation. These truncation events in the nptII upstream region occur independently of the nature of the upstream sequence and of the T-DNA length. Deletion of the right border region prevents the detection of activated marker genes. Therefore, T-DNA truncation probably occurs after synthesis of a normal T-DNA intermediate during the transfer and/or integration process. In the absence of border regions, expression of the nptII selectable marker directed by the nopaline synthase promoter was detected in 1 out of 105 regenerated calli, suggesting the possibility that any DNA sequence from the Ti plasmid can be transformed into the plant genome, albeit at a low frequency.