Transposition of Tn904 encoding streptomycin resistance into the octopine Ti plasmid of Agrobacterium tumefaciens.

A transfer-deficient derivative of plasmid RP1-pMG1 was isolated after insertion of Mu cts62. The Tra- R plasmid was used to donate Tn904, encoding streptomycin resistance, to Ti plasmid pAL102 harbored by Agrobacterium tumefaciens Ach5. Under conditions promoting high Ti transfer frequencies, 155 strains were isolated in which the streptomycin marker coupled with Ti plasmid in further transfer experiments. These isolates represent stable insertions of Tn904 into the Ti plasmid. In addition, 19 strains were isolated in which the insertion of Tn904 was apparently unstable. The frequency of stable Tn904 transpositions was estimated to be 3 x 10(4-) per transferred Ti plasmid. Evidence was obtained that Tn904 readily may transpose from the Ti plasmid into the bacterial chromosome. The strains carrying Ti plasmids with stable insertions were characterized with respect to virulence, octopine degradation, octopine synthesis in induced tumors, and Ti plasmid transfer. Thirteen of the strains were found to be affected in tumor-inducing ability.     

Transfer of the octopine T-DNA segment to plant cells mediated by different types of Agrobacterium tumor- or root-inducing plasmids: generality of virulence systems.

Genetic complementation studies demonstrated that the transfer to plant cells of the octopine T-DNA, entirely present as the only part of the tumor-inducing (Ti) plasmid on the plasmid pAL1050, was effected by the virulence systems from related plasmids, viz. the nopaline Ti plasmid pTiC58, the limited host range plasmid pTiAg57, and the root-inducing (Ri) plasmid pRi1855. Rhizobium symbiosis plasmids were not capable of effecting the introduction of pAL1050 into plant cells.     

Interactions between octopine and nopaline plasmids in Agrobacterium tumefaciens.

Transfer of octopine Ti plasmids to strains already carrying an octopine Ti plasmid was found to occur at the same (high) frequency as transfer to Ti plasmid lacking recipients, showing that resident Ti plasmids do not exhibit entry exclusion towards incoming Ti plasmids. The resident octopine Ti plasmid was lost by the recipient after the entrance of the incoming Ti plasmid, which is indicative of the incompatibility between the Ti plasmids. Octopine Ti plasmids were found to become established only infrequently in recipients with a nopaline Ti plasmid and, vice versa, nopaline Ti plasmids were only rarely established in recipients with an octopine Ti plasmid. Rare clones in which the incoming octopine (nopaline) Ti plasmid had been established despite the presence of a nopaline (octopine) Ti plasmid appeared to harbor cointegrates consisting of the entire incoming Ti plasmid and the entire resident Ti plasmid. The integration event invariably had occurred in a region of the plasmids that is highly conserved in evolution and that is essential for oncogenicity. These results show that octopine and nopaline Ti plasmids cannot be maintained as separate replicons by one and the same cell. Therefore, be definition, these plasmids belong to the same incompatibility group, which has been names inc Rh-1. Agrobacterial non-Ti octopine and nopaline plasmids were found to belong to another incompatibility group. The tumorigenic properties of strains harboring two different Ti plasmids, in a cointegrate structure, were indicative of the virulence genes of both of them being expressed. The agrobacterial non-Ti octopine and nopaline plasmids did not influence the virulence properties encoded by the Ti plasmid.     

Sequence analysis of the vir-region from Agrobacterium tumefaciens octopine Ti plasmid pTi15955

The nucleotide sequence of 42 775 bp of the vir-region from the Agrobacterium tumefaciens octopine Ti plasmid pTi15955 is reported here. Although the nucleotide sequences of several parts of this region from this or closely related plasmids have been published previously, the present work establishes for the first time the complete arrangement of all the essential virulence genes and their intergenic regions of an octopine Ti plasmid. The disruption of some of the intergenic areas by insertion (IS) elements is typical for the octopine Ti plasmids. Several new ORFs were identified, including ORFs immediately downstream of virD4 and virE2, which probably represent new genes involved in virulence.     

A comparison of virulence determinants in an octopine Ti plasmid, a nopaline Ti plasmid, and an Ri plasmid by complementation analysis of Agrobacterium tumefaciens mutants

Transposon-insertion mutants with vir^? Ti plasmids were characterized and then used in complementation experiments. One of the mutants (LBA 1517) had a mutation in a newly discovered vir locus called virF. The virF mutation led to a strongly diminished virulence on tomato and tobacco, but not on certain other plant species. Also a mutant (LBA 1505) was isolated with a mutation somewhere in the bacterial genome but outside the octopine Ti plasmid that caused a restriction in host range for tumor induction. Introduction of a nopaline Ti plasmid or an Ri plasmid into LBA 1505 did not restore normal virulence, showing that the vir gene affected in LBA 1505 determines a factor which is essential for normal tumor induction both by different types of Ti plasmids and by the Ri plasmid. The introduction of R primes containing part or all of the octopine Ti plasmid virulence region led to a restoration of virulence in strains with a vir^? nopaline Ti plasmid. Also the transfer of an Ri plasmid to a large number of different vir^? octopine or nopaline Ti plasmid mutants rendered these strains virulent. These results indicate that the octopine Ti plasmid, the nopaline Ti plasmid, and the Ri plasmid each have a similar virulence system which can mediate the transfer of T-DNA to plant cells from different types of Ti or Ri plasmids. In complementation experiments between vir^? octopine Ti plasmid mutations and vir^? nopaline Ti plasmid mutations it was found that equivalent functions are determined by the areas of DNA homology in the virulence regions of these two types of Ti plasmids. The previously defined octopine Ti plasmid virC locus appeared to consist of two different loci. One of these loci was found to be in a region of the octopine Ti plasmid which does not share DNA homology with the nopaline Ti plasmid, and was therefore called virO (octopine Ti plasmid specific). For the other locus the name virC was retained. Whereas mutations in the virC locus were avirulent on all plant species tested, mutations in virO were avirulent on tomato and pea, but virulent on sunflower and Nicotiana rustica. VirO^? mutants produced rooty tumors on Kalanchoë tubiflora.     

Efficient octopine Ti plasmid-derived vectors for Agrobacterium-mediated gene transfer to plants.

A two-component cloning system to transfer foreign DNA into plants was derived from the octopine Ti plasmid pTiB6S3. pGV2260 is a non-oncogenic Ti plasmid from which the T-region is deleted and substituted by pBR322. pGV831 is a streptomycin-resistant pBR325 derivative that contains a kanamycin resistance marker gene for plant cells and a site for cloning foreign genes between the 25-bp border sequences of the octopine T-region. Conjugative transfer of pGV831 derivatives to Agrobacterium and cointegration by homologous recombination between the pBR322 sequences present on pGV831 and pGV2260, can be obtained in a single step. Strains carrying the resulting cointegrated plasmids transfer and integrate T-DNA into the genome of tobacco protoplasts, and transformed tobacco calli are readily selected as resistant to kanamycin. Intact plants containing the entire DNA region between the T-DNA borders have been regenerated from such clones. In view of these properties we present pGV831 and its derivatives as vectors for efficient integration of foreign genes into plants.     

Construction and application of R prime plasmids, carrying different segments of an octopine Ti plasmid from Agrobacterium tumefaciens, for complementation of vir genes

Several R prime plasmids have been obtained with high efficiency, by enclosing the R plasmid replicator, in an R::Ti cointegrate plasmid, between two copies of the transposon Tn1831, in the same orientation. These R primes carry different segments of an octopine Ti plasmid, and are compatible with Ti plasmids. They were used to study genetic complementation of Ti plasmid insertion mutants, outside the T-DNA region, which affected oncogenicity. Complementation was observed in both recombination-proficient and -deficient strains. The complementation in trans indicates that certain functions essential for tumor formation outside the T-DNA region are probably expressed in the bacterium. Therefore, the authors proposed to make a distinction between virulence (Vir) functions and oncogenic (Onc) functions of the octopine Ti plasmid of Agrobacterium tumefaciens. A large R prime was obtained, carrying the whole Ti plasmid, except a 7-Mdalton segment, containing the Ti plasmid replicator region. Strains harboring this plasmid induced normal tumors, showing that the replicator region of the octopine Ti plasmid is dispensible for tumor induction.     

Agrobacterium tumefaciens mutants affected in crown gall tumorigenesis and octopine catabolism.

Mutants of Agrobacterium tumefaciens which affect virulence or the ability to catabolize octopine were isolated after Tn5-induced mutagenesis. Of 8,900 colonies tested, 7 mutants with Tn5 insertions in a specific region of other Ti plasmid unable to catabolize octopine were isolated. Thirty-seven mutants affected in tumorigenesis resulted from insertions in the Ti plasmid and the Agrobacterium chromosome. Of these mutations, 12 were chromosomal and 25 mapped on the plasmid. Twenty-three mapped within a 20-megadalton region, which is distinct from the Ti plasmid sequences found stably integrated into the plant cell genome T-deoxyribonucleic acid). Included in these were mutants that were either a virulent or produced tumors with unusual morphologies. Three mutants contained insertions in the T-deoxyribonucleic acid. These three mutants incited tumors which synthesized octopine but had an altered morphology due to either extensive proliferation of shoots or roots from the tumor callus. Three additional mutants not caused by Tn5 contained mutations in the Ti plasmid.     

Conservation of IS66 homologue of octopine Ti plasmid DNA in Rhizobium fredii plasmid DNA

Summary DNA sequences homologous to the T-DNA region of the octopine Ti plasmid from Agrobacterium tumefaciens are found in various fast-growing Rhizobium fredii strains. The largest fragment (BamHI fragment 2) at the right-boundary region of the core T-DNA hybridizes to more than one plasmid present in R. fredii. However, one smaller fragment (EcoRI fragment 19a) adjacent to the core T-DNA shows homology only with the plasmid carrying the symbiotic nitrogen-fixation genes (pSym). Hybridization data obtained with digested R. fredii USDA193 pSym DNA suggests that the homology is mainly with two HindIII fragments, 1.7 kb and 8.8 kb in size, of the plasmid. The 1.7 kb HindIII fragment also hybridizes to two regions of the virulence plasmid of A. tumefaciens, pAL1819, a deletion plasmid derived from the octopine Ti plasmid, pTiAch5. Hybridization studies with an insertion element IS66 from A. tumefaciens indicate that the 1.7 kb HindIII fragment of R. fredii plasmid, homologous to the T-DNA and the virulence region of Ti plasmid, is itself an IS66 homologue.     

Characterization of Tn904 insertions in octopine Ti plasmid mutants of Agrobacterium tumefaciens.

Seven Tn904 insertion mutants of pTi Ach5 affecting Agrobacterium tumefaciens virulence were studied. The mutant character was shown to be plasmid borne. Four of these mutants were avirulent and carried an insertion in restriction endonuclease HpaI fragment 12, a 3.3-megadalton fragment, which therefore appears to be a Ti plasmid region essential for virulence. Two mutants were attenuated in virulence. The inserts mapped close to HpaI fragment 12. One mutant giving rise to small tumors with excessive adventitious root formation on Kalanchoe daigremontiana carried an insertion in the right side of the common sequence in the deoxyribonucleic acid of the Ti plasmid detected in crown gall tumors. The insertion behavior of Tn904 was studied by analyzing 11 independently isolated and randomly chosen mutants. The Tn904 inserts did not affect oncogenicity, tumor morphology, bacterial transfer functions, octopine catabolism functions, or vital parts of the Ti plasmid, such as the origin of replication. Most of the Tn904 inserts were concentrated in a small part of the map. The size of additional deoxyribonucleic acid as a result of Tn904 inserts varied between 5 and 15 megadaltons. In two cases a Ti plasmid was found with two Tn904 insertions at different positions.     

Localization of the replication control region on the physical map of the octopine Ti plasmid

A series of small plasmids has been derived from the octopine plasmid pTi-B6 by in vitro manipulation. The smallest plasmid that is able to replicate in Agrobacterium tumefaciens contains the ampicillin-resistance determinant from Tn1, coupled to a piece of DNA that is homologous to HpaI fragment number 11 of the octopine Ti plasmid pTi-Ach 5. The incompatibility functions are also specified by this region.     

vir genes influence conjugal transfer of the Ti plasmid of Agrobacterium tumefaciens.

Mutation of the genes virA, virB, virC, and virG of the Agrobacterium tumefaciens octopine-type Ti plasmid pTiR10 was found to cause a 100- to 10,000-fold decrease in the frequency of conjugal transfer of this plasmid between Agrobacterium cells. This effect was not absolute, however, in that it occurred only during early times (18 to 24 h) of induction of the conjugal transfer apparatus by octopine. Induction of these mutant Agrobacterium strains by octopine for longer periods (48 to 72 h) resulted in a normal conjugal transfer frequency. The effect of these vir gene mutations upon conjugation could be restored by the introduction of cosmids harboring wild-type copies of the corresponding disrupted vir genes into the mutant Agrobacterium strains. In addition, transfer of the self-mobilizable plasmid pPH1JI was not impaired in any of the mutant Agrobacterium strains tested. The effect of vir gene function on the conjugal transfer of the Ti plasmid suggests that a relationship may exist between the processes that control the transfer of the T-DNA from Agrobacterium to plant cells and the conjugal transfer of the Ti plasmid between bacterial cells.     

Genetic map of an octopine TI-plasmid.

Several deletion mutants of an octopine TI-plasmid were mapped by digestion with the restriction enzyme Sma I. The T region, as it is defined on the B6-806 plasmid, does not appear to be an essential area for tumour induction on the plasmid of Ach5. The genes for octopine breakdown, plasmid transfer, and the replicator were roughly localized. The possibility of using mutants with large deletions as a cloning vehicle in Agrobacterium tumefaciens is discussed.     

Function of heterologous and pseudo border repeats in T region transfer via the octopine virulence system of Agrobacterium tumefaciens

The successful transfer of the Ti plasmid T region to the plant cell is mediated by its 24 bp border repeats. Processing of the T-region prior to transfer to the plant cell is started at the right border repeat and is stimulated by a transfer enhancer sequence called overdrive. Left and right border repeats differ somewhat in nucleotide sequence; moreover, the repeats of different Ti and Ri plasmids are slightly different. Our data indicate that these differences do not have a significant influence on border activity. However, the overdrive sequence is essential for the efficient transfer of a T region via an octopine transfer system. Our data suggest that an overdrive sequence must also be present next to the right border repeats of the nopaline Ti plasmid and the agropine of octopine and nopaline Ti plasmids express some differences in T-DNA processing activities. of cotopine and nopaline Ti plasmids express some differences in T-DNA processing activities.Furthermore, we demonstrate that certain pseudo border repeats, sequences that resemble the native 24 bp border repeat and naturally occur within the octopine Ti plasmid T-region, are able to mediate T region transfer to the plant cell, albeit with much reduced efficiency as compared to wild-type border repeats.     

Analysis of octopine left border-directed DNA transfer fromAgrobacterium to plants

We constructed a binary plasmid, pVR30, with a neomycin phosphotransferase II (nptII) plant expression cassette flanked by a pTiA6 left border on its right and a pTiA6 right border on its left. This plasmid was used to study transfer of DNA to plants from a left border in the presence of a right border. Infection of tobacco leaf discs with a wild type octopine strain ofAgrobacterium tumefaciens harbouring the binary plasmid resulted in the generation of kanamycin resistant calli at 18 to 26% frequency. Southern hybridization analysis of DNA isolated from eight transformed lines to different probes indicated that left border could mediate DNA transfer to plants in the presence of a right border in cis. Our results also suggest that transfer events corresponding to transfer of T- centre DNA of octopine Ti plasmid pTiA6 do occur. We have shown the relevance of left border- initiated T- DNA transfer by specifically selecting for such events and have confirmed it by Southern hybridization analysis. We also found that a border could be skipped in a few T- DNA transsfer events. This work was presented at “Plant Molecular Biology and Plant Biotechnology” symposium held in ICGEB, New Delhi during December 14–17, 1994.