Dual control of Agrobacterium tumefaciens Ti plasmid virulence genes.

The virulence genes of nopaline (pTiC58) and octopine (pTiA6NC) Ti plasmids are similarly affected by the Agrobacterium tumefaciens ros mutation. Of six vir region complementation groups (virA, virB, virG, virC, virD, and virE) examined by using fusions to reporter genes, the promoters of only two (virC and virD) responded to the ros mutation. For each promoter that was affected by ros, the level of expression of its associated genes was substantially elevated in the mutant. This increase was not influenced by Ti plasmid-encoded factors, and the mutation did not interfere with the induction of pTiC58 vir genes by phenolic compounds via the VirA/VirG regulatory control mechanism. The effects of the ros mutation and acetosyringone were cumulative for all vir promoters examined. The pleiotropic characteristics of the ros mutant include the complete absence of the major acidic capsular polysaccharide.     

Processing of the T-DNA of Agrobacterium tumefaciens generates border nicks and linear, single-stranded T-DNA.

Transfer and integration of a defined region (T-DNA) of the tumor-inducing (Ti) plasmid of Agrobacterium tumefaciens is essential for tumor formation. We used a physical assay to study structural changes induced in Agrobacterium T-DNA by cocultivation with plant cells. We show that nicks are introduced at unique, identical locations in each of the 24-base-pair imperfect direct repeats which flank the T-DNA and present evidence that a linear, single-stranded molecule is generated. We propose that these changes result from processing of the T-DNA for transfer and that they occur by a mechanism similar to DNA processing during conjugative DNA transfer between bacteria.     

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.     

Ti plasmid and chromosomal ornithine catabolism genes of Agrobacterium tumefaciens C58.

The pTiC58 plasmid noc genes of Agrobacterium tumefaciens C58 code for nopaline oxidase (nocC), nopaline permease (nocP), the inducible periplasmic protein n1 (nocB), and a function(s) required for ornithine catabolism (nocA). In addition, strains C58 and Ach-5 of A. tumefaciens have chromosomal ornithine catabolism genes. The chromosomal orc gene codes for ornithine dehydrogenase. Strain C58 is normally orc, but orc+ mutants can be selected. We have characterized both chromosomal orc and pTiC58 nocA plasmid genes. Complementation of most chromosomal orc mutants by pTiC58 restored growth on both nopaline and L-ornithine but did not restore ornithine dehydrogenase activity. We conclude that ornithine is an intermediate of nopaline degradation and that the Ti plasmid and chromosome both code for ornithine-degradative enzymes. A model for nopaline catabolism is presented.     

Virulence genes promote conjugative transfer of the Ti plasmid between Agrobacterium strains.

Certain virulence region operons of the Agrobacterium tumefaciens Ti plasmid promoted conjugative Ti plasmid transfer. Mutations in the vir region of pTiC58 inhibited conjugative plasmid transfer between A. tumefaciens strains. Mutations in virA, virG, 5' virB, and virE had the greatest effect on plasmid transfer, and mutations in virC had no effect. Transfer inhibition in vir mutants occurred in the presence or absence of acetosyringone.     

Opines stimulate induction of the vir genes of the Agrobacterium tumefaciens Ti plasmid.

Upon incubation of Agrobacterium tumefaciens A348 with acetosyringone, the vir genes encoded by the Ti (tumor-inducing) plasmid are induced. The addition of certain opines, including octopine, nopaline, leucinopine, and succinamopine, enhanced this induction 2- to 10-fold. The compounds mannopine, acetopine, arginine, pyruvate, and leucine did not stimulate the induction of the vir genes to such an extent. The enhancement of vir gene induction by opines depended on acetosyringone and the genes virA and virG. Opines stimulated the activity of the vir genes, the double-stranded cleavage of the T (transferred)-DNA at the border repeat sequences, and the production of T-strands by the bacterium. The transformation efficiency of cotton shoot tips was markedly increased by the addition of acetosyringone and nopaline at the time of infection.     

The Agrobacterium tumefaciens virC1 gene product binds to overdrive, a T-DNA transfer enhancer.

In Agrobacterium tumefaciens, a cis-active 24-base-pair sequence adjacent to the right border of the T-DNA, called overdrive, stimulates tumor formation by increasing the level of T-DNA processing. Recent results from our laboratory have suggested that the virC operon which enhances T-DNA processing probably does so because the VirC1 protein interacts with overdrive (N. Toro, A. Datta, M. Yanofsky, and E. W. Nester, Proc. Natl. Acad. Sci. USA 85:8558-8562, 1988). We report here the purification of the VirC1 protein from cells of Escherichia coli harboring a plasmid containing the coding sequences of the virC locus of the octopine Ti plasmid. By gel mobility shift and DNase I footprinting assays, we showed that this purified virC1 gene product binds to overdrive but not to the right border of T-DNA.     

Regulation of Ti plasmid virulence genes by a chromosomal locus of Agrobacterium tumefaciens.

We isolated a mutant strain of Agrobacterium tumefaciens, designated Ros, that has a pleiotropic phenotype which includes elevated levels of expression of certain genes in the virulence (Vir) region of tumor-inducing plasmid pTiC58. This mutant and others were isolated by fusing the promoter of the Vir bak gene to a promoterless gene (cat) that encodes chloramphenicol acetyltransferase and then selecting for increased expression of cat in A. tumefaciens. The ros mutation is chromosomal in nature and is characterized by a more-than-300-fold increase in the level of expression of bak and a 12-fold increase in the level of expression of an adjacent divergent operon containing the hdv genes, which are involved in some aspect of host specificity. The Ros mutant is fully virulent and is typified by its unusual colony morphology; the colonies have rough surfaces, uneven edges, and a pit in the center at 24 degrees C and vary markedly in appearance from one growth temperature to another. The Ros mutant is not able to form colonies at 12 degrees C, a temperature at which the wild-type strain forms colonies in 14 days. The ros mutation occurs spontaneously with a frequency of 5 X 10(-8). Genetic and biochemical evidence indicates that the product of the ros locus is a negative regulator of Ti plasmid genes and is related to undefined chromosomally encoded functions that are involved in the mutant phenotype.     

农杆菌Ti质粒的改造及其衍生的质粒载体

Ti质粒是农杆菌介导基因转化的重要部件,它是农杆菌染色体外的遗传物质。野生型Ti 质粒虽然是植物基因工程的一种天然载体,但把它用作常规的克隆载体却存在4点缺陷,为了使Ti质粒适于基因工程的需要,必须对其进行改造。改造Ti质粒方法目前有:共整合载体和双元载体。     

Gene note. Complete nucleotide sequence of the T-DNA region of the plant tumour-inducing Agrobacterium tumefaciens Ti plasmid pTiC58

The complete nucleotide sequence has been determined of the T-DNA region from the plant tumour-inducing Agrobacterium tumefaciens nopaline Ti plasmid pTiC58. The T-DNA itself consists of 24 782 bp flanked by two direct 25 bp repeats, the border sequences. In addition, 3622 bp located at the left and 1070 bp at the right of the T-DNA borders were sequenced. Twenty-two open reading frames that code for proteins larger than 125 amino acids have been identified.Key words: Agrobacterium tumefaciens, sequence, T-DNA.      

Transfer of the Ti plasmid from Agrobacterium tumefaciens into Escherichia coli cells

We have screened strains of Agrobacterium tumefaciens for spontaneous mutants showing constitutive transfer of the nopaline Ti plasmid pTiC58 during conjugation. The Ti plasmid derivatives obtained could be transferred not only to A. tumefaciens but also to E. coli cells. The Ti plasmid cannot survive as a freely replicating plasmid in E. coli, but it can occasionally integrate into the E. coli chromosome. However, insertion in tandem of plasmids carrying fd replication origins (pfd plasmids) into the T-DNA provides an indicator for all transfer events into E. coli cells, providing fd gene 2 protein is present in these cells. This viral protein causes the excision of one copy of the pfd plasmid and allows its propagation in the host cell. By using this specially designed Ti plasmid, which was also made constitutive in transfer functions, we found plasmid exchange among A. tumefaciens strains and between A. tumefaciens and E. coli cells to be equally efficient. A Ti plasmid with repressed transfer functions was transferred to E. coli with a rate similar to the low frequency at which it was transferred to A. tumefaciens. The expression of transfer functions of plasmid RP4 either in A. tumefaciens or in E. coli did not increase the transfer of the Ti plasmid into E. coli cells, nor did the addition of acetosyringone, an inducer of T-DNA transfer to plant cells. The results show that A. tumefaciens can transfer the Ti plasmid to E. coli with the same efficiency as within its own species. Conjugational transmission of extrachromosomal DNA like the narrow-host-range Ti plasmid may often not only occur among partners allowing propagation of the plasmid, but also on a 'try-all' basis including hosts which do not replicate the transferred DNA.     

Electroporation of binary Ti plasmid vector into Agrobacterium tumefaciens and Agrobacterium rhizogenes

Abstract Efficient transformation of strains of Agrobacterium tumefaciens and Agrobacterium rhizogenes by electroporation with binary Ti plasmid vector is reported. This procedure yields rates of transformation of 10⁶-10³ per μg DNA, which is several orders of magnitude greater than previously published procedures for this genus, the efficiency of transformation varies with the bacterial strain used. This procedure will be useful for the construction of plant DNA libraries directly in Agrobacterium .     

Isolation of a non-tumor-inducing mutant of the Ti plasmid of Agrobacterium tumefaciens strain B6.

A nonpathogenic mutant of Agrobacterium tumefaciens strain B6 was isolated and its properties compared with the parental strain in an effort to localize the mutation. Both B6 and its mutant (B6-95) had similar colony color and morphology, were ketolactose positive, utilized octopine, and contained plasmid DNA. Kinetic analysis of DNA reannealing showed that total DNA homology and plasmid DNA homology between B6 and B6-95 was at least 90%. The length of both plasmids was found to be 58 micrometer. Plasmid DNA from both B6 and the mutant was digested with endonucleases and the fragments separated by agarose gel electrophoresis. In all cases the pattern for B6 was identical with that of B6(-95). The Ti plasmid from B6 and the mutant was transferred to an avirulent, plasmidless strain of A. tumefaciens by in vitro conjugation and transformation. All of the B6 transconjugants and transformants were virulent, whereas all of the mutant transconjugants and transformants were avirulent. Electrophoretic patterns of endonuclease-digested plasmid DNA from transformants were identical to those of plasmid DNA from B6. Therefore, we conclude that the virulence mutation lies on the Ti plasmid.     

Cell-cell signaling and the Agrobacterium tumefaciens Ti plasmid copy number fluctuations

The Agrobacterium tumefaciens oncogenic Ti plasmids replicate and segregate to daughter cells via repABC cassettes, in which repA and repB are plasmid partitioning genes and repC encodes the replication initiator protein. repABC cassettes are encountered in a growing number of plasmids and chromosomes of the alpha-proteobacteria, and findings from particular representatives of agrobacteria, rhizobia and Paracoccus have began to shed light on their structure and functions. Amongst repABC replicons, Ti plasmids and particularly the octopine-type Ti have recently stood as model in regulation of repABC basal expression, which acts in plasmid copy number control, but also appear to undergo pronounced up-regulation of repABC, upon interbacterial and host-bacterial signaling. The last results in considerable Ti copy number increase and collective elevation of Ti gene expression. Inhibition of the Ti repABC is in turn conferred by a plant defense compound, which primarily affects Agrobacterium virulence and interferes with cell-density perception. Altogether, the above suggest that the entire Ti gene pool is subjected to the bacterium-eukaryote signaling network, a phenomenon quite unprecedented for replicons thought of as stringently controlled. It remains to be seen whether similar copy number variations characterize related replicons or if they are of even broader significance in plasmid biology.     

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.     

Transfer of non-T-DNA portions of the Agrobacterium tumefaciens Ti plasmid pTiA6 from the left terminus of TL-DNA

We introduced a plant selection marker, nptII, to the left of border A in the Agrobacterium Ti plasmid pTiA6. Infection of tobacco leaf discs with the modified Agrobacterium strain gave rise to kanamycin-resistant calli which grew in a hormone-dependent manner. Southern hybridization analysis of DNA isolated from four transformants indicated initiation of DNA transfer at or near border A and absence of T-DNA sequences. These results demonstrate that DNA transfer events starting at a left border on a native Ti plasmid and moving away from the T-DNA region occur and that they can be detected by designing a suitable selection strategy.