Overexpression of virD1 and virD2 genes in Agrobacterium tumefaciens enhances T-complex formation and plant transformation.

The VirD1 and VirD2 proteins encoded by an inducible locus of the virulence (vir) region of the Agrobacterium tumefaciens Ti plasmid are required for site-specific nicking at T-DNA border sites. We have determined the nucleotide sequence of a 3.6-kilobase-pair fragment carrying the virD locus from nopaline Ti plasmid pTiC58. In contrast to the previous report (Hagiya et al., Proc. Natl. Acad. Sci. USA 82:2669-2673, 1985), we found that the first three open reading frames were capable of encoding polypeptides of 16.1, 49.7, and 21.4 kilodaltons. Deletion analysis demonstrated that the N-terminal conserved domain of VirD2 was absolutely essential for its endonuclease activity. When extra copies of the virD1 and virD2 genes were present in an A. tumefaciens strain carrying a Ti plasmid, increased amounts of T-strand and nicked molecules could be detected at early stages of vir induction. Such strains possessed the ability to transform plants with higher efficiency.     

The virD4 gene is required for virulence while virD3 and orf5 are not required for virulence of Agrobacterium tumefaciens

The virD operon of the resident Ti plasmid of Agrobacterium tumefaciens contains loci involved in T-DNA processing and undefined virulence functions. Nucleotide sequence of the entire virD operon of pTiC58 revealed similarities to the virD operon of the root-inducing plasmid pRiA4b and to that of the octopine-type plasmid pTiA6NC. However, comparative sequence data show that virD of pTiC58 is more akin to that of the pRiA4b than to that of the pTiA6NC. T7f10::virD gene fusions were used to generate polypeptides that confirm the presence of four open reading frames virD1, virD2, virD3, and virD4 within virD which have a coding capacity for proteins of 16.1, 49.5, 72.6, and 73.5 kDa, respectively. virD3 therefore encodes a polypeptide 3.4 times larger (72.6 versus 21.3 kDa) than that encoded by virD3 of octopine Ti plasmids. Non-polar virD4 mutants could not be complemented by a distant homologue, TraG protein of plasmid RP4. An independently regulated fifth ORF (orf5) is located immediately downstream of 3′ end of virD4 and encodes a polypeptide of 97.4 kDa. The expression of orf5 is dependent on its own promoter and is independent of acetosyringone induction in A. tumefaciens. Recently, it has been shown that virD3 of octopine Ri or Ti plasmids is not required for virulence. In this report, we confirm and extend these findings on a nopaline Ti plasmid by using several virD non-polar mutants that were tested for virulence. virD3 and orf5 non-polar mutants showed no effect on tumorigenicity on 14 different plant species, while virD4 mutants lost their tumorigenicity completely on all these test plants. These data suggest that virD3 and orfS are not essential for virulence whereas virD4 is absolutely required on a wide range of host plants.     

VirD2 gene product from the nopaline plasmid pTiC58 has at least two activities required for virulence.

Virulence genes virD1 and virD2 are required for T-DNA processing in Agrobacterium tumefaciens. The regions within virD2 contributing to T-DNA processing and virulence were investigated. Some insertional mutations in virD2 prevented T-DNA border endonucleolytic cleavage and produced an avirulent phenotype. However, a non-polar insertion immediately after bp 684 of the 1344 bp open reading frame of virD2 did not inhibit endonucleolytic cleavage but still caused a loss of virulence. This suggested that in addition to T-DNA border cleaving activity, the VirD2 protein has another virulence function which resides in the C-terminal half of the protein. Comparative nucleotide sequence analyses of virD2 showed that the first 684 bp were 81% homologous to virD2 of an octopine Ti plasmid whereas the remaining 660 bp were only 44% homologous. A plasmid containing the virD region from octopine Ti plasmid could restore both virulence and processing to a nopaline virD2 mutant. No complementation resulted when a nopaline virD2 clone containing a region similar to eukaryotic nuclear envelope transport sequences was deleted from the 3' end. These results suggest that virD1 and only the first half of virD2 are required to encode for the T-DNA processing endonuclease, and that the 3'-half of virD2 encodes a function separate from endonuclease activity that is required for virulence.     

The virD operon of Agrobacterium tumefaciens encodes a site-specific endonuclease

Tumor formation by Agrobacterium tumefaciens involves the transfer and integration of a defined segment (T-DNA) of tumor-inducing (Ti) plasmid DNA into the plant nuclear genome. A set of plasmid genes outside the T-DNA, the vir genes, are thought to mediate the transfer process. We report here that the virD operon encodes a site-specific endonuclease that cleaves at a unique site within each of the 24 bp direct repeats that flank the T-DNA. The endonuclease function was further localized to the 5' end of this operon by demonstrating that cleavage does not occur in virD mutant strains of Agrobacterium and that the 5' end of the virD operon is sufficient to direct cleavage in E. coli. Analysis of nucleotide sequence and protein data indicate that two proteins of 16.2 and 47.4 kd are involved.     

Genetic and environmental factors affecting T-pilin export and T-pilus biogenesis in relation to flagellation of Agrobacterium tumefaciens

The T pilus, primarily composed of cyclic T-pilin subunits, is essential for the transmission of the Ti-plasmid T-DNA from Agrobacterium tumefaciens to plant cells. Although the virB2 gene of the 11-gene virB operon was previously demonstrated to encode the full-length propilin, and other genes of this operon have been implicated as members of a conserved transmembrane transport apparatus, the role of each virB gene in T-pilin synthesis and transport and T-pilus biogenesis remained undefined. In the present study, each virB gene was examined and was found to be unessential for T-pilin biosynthesis, except virB2, but was determined to be essential for the export of the T-pilin subunits and for T-pilus formation. We also find that the genes of the virD operon are neither involved in T-pilin export nor T-pilus formation. Critical analysis of three different virD4 mutants also showed that they are not involved in T-pilus biogenesis irrespective of the A. tumefaciens strains used. With respect to the environmental effects on T-pilus biogenesis, we find that T pili are produced both on agar and in liquid culture and are produced at one end of the A. tumefaciens rod-shaped cell in a polar manner. We also report a novel phenomenon whereby flagellum production is shut down under conditions which turn on T-pilus formation. These conditions are the usual induction with acetosyringone at pH 5.5 of Ti-plasmid vir genes. A search of the vir genes involved in controlling this biphasic reaction in induced A. tumefaciens cells revealed that virA on the Ti plasmid is involved and that neither virB nor virD genes are needed for this reaction. The biphasic reaction therefore appears to be mediated through a two-component signal transducing system likely involving an unidentified vir gene in A. tumefaciens.     

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.     

Osa protein encoded by plasmid pSa is located at the inner membrane but does not inhibit membrane association of VirB and VirD virulence proteins in Agrobacterium tumefaciens

Abstract The osa gene of IncW plasmid pSa encodes a 21-kDa protein that completely abolishes the oncogenic activity encoded by virulence genes in Agrobacterium tumefaciens. osa is the last gene of a four-gene operon in pSa, the expression of which appears to be highly regulated since the Osa protein is absent when either pSa or the osa operon is present in the Agrobacterium cell. When the osa gene alone or together with upstream genes within the operon are expressed under the control of a constitutive promoter, Osa protein is produced, enabling us to determine its subcellular location. Immunoblot analyses located Osa protein at the inner membrane of both A. tumefaciens and Escherichia coli . Because Osa inhibits oncogenicity of A. tumefaciens , and because alterations of the products of the virB and virD genes affect oncogenicity, studies were conducted to determine if there are changes in their specific association with the membranes in the presence Osa. Immunoblot analyses of VirB2, VirB3, VirB4, VirB9, and VirD4 in the presence and absence of Osa revealed no differences between the two treatments in these Vir protein associations with the membranes. These results indicate that both virB and virD gene products are produced in the presence of Osa; that they appear unaffected in their association with the membranes; and that Osa is associated with the inner membrane, where VirB2, VirB4, and VirD4 proteins are also located.     

Modification of T-DNA of nopaline Ti plasmid by intermediary vector and utilization of agrocin 84 sensitivity as simple criterion of conjugation transfer of modified Ti plasmid

The chloramphenicol resistance gene from pSa was introduced into T-DNA of pTi T37 of Agrobacterium tumefaciens by cointegration with intermediary plasmid based on pBR322. The resulting intermediary vector was mobilized to A. tumefaciens T37 by conjugative plasmid pRK2. The RK2 plasmid also forms contegrates with pTi due to the Tn3 transposon which was used for the mobilization of modified pTi into plasmid-less A. tumefaciens strain. Transconjugants were selected on the basis of their antibiotic resistance markers and tested for agrocin sensitivity as proof of Ti plasmid transfer. Agrocin sensitivity of tranconjugants together with chloramphenicol resistance was shown to be a sufficient and simple criterion of transfer of modified Ti plasmids. Agrobacterium strains with modified Ti plasmids showed decreased virulence in consequence of the presence of additional borderline sequence inside their T-DNA.     

Identification of a chromosomal tra-like region in Agrobacterium tumefaciens

The virD4 gene is one of the virulence genes present on the pTiC58 plasmid of Agrobacterium tumefaciens. Unexpectedly, we found that a pTi-free A. tumefaciens strain carried a protein of similar size to the plasmid-encoded VirD4 protein which reacted with VirD4-specific antibodies. This suggested that this strain may contain a homologue of the VirD4 protein. A chromosomal fragment encoding a protein of similar sequence to VirD4 was isolated and a 7.8 kilobase region surrounding the gene encoding this putative homologue was sequenced. This region contained four open reading frames, encoding putative proteins similar to proteins of known bacterial transfer and conjugation systems, viz., orf1 encoded a putative homologue of the TraA protein of the Rhizobium symbiosis plasmid pNGR234 and the TraA protein encoded by pTiC58 from A. tumefaciens plasmid pTiC58, orf3 encoded a protein very similar to the MobC protein encoded by the IncQ plasmid RSF1010 of E. coli and to MobS encoded by pTF1 from Thiobacillus ferrooxidans, whereas the predicted product of orf4 displayed similarity to the TraG protein encoded by the IncPalpha plasmid RP4 of E. coli, TraG and VirD4 encoded by A. tumefaciens plasmid pTiC58. The product of orf2 showed no significant similarity to any known protein. Preliminary assays with two orf4 mutants suggested that the product of this orf is involved in DNA transfer. The 7.8 kb chromosomal fragment seems to be closely related to the tra region of different conjugative plasmids and appears to be confined to Agrobacterium species, raising the question of the role of a chromosomal tra-like region during evolution.     

Construction and characterization of Tn5virB, a transposon that generates nonpolar mutations, and its use to define virB8 as an essential virulence gene in Agrobacterium tumefaciens.

Transfer of the T-DNA from the Ti plasmid of Agrobacterium tumefaciens into plant cells involves movement of a single-stranded DNA-protein intermediate across several membrane and cell wall barriers. The 11 VirB proteins encoded by the Ti plasmid are hypothesized to form at least part of a membrane-localized T-DNA transport apparatus. Although available genetic and biochemical analyses support this hypothesis, detailed study of this transport apparatus is hindered by the fact that most available mutations in the virB operon are in the form of transposon insertions that have polar effects. In this study we constructed a transposon, Tn5virB, that can be used to generate nonpolar insertions in operons of A. tumefaciens and used it to demonstrate that virB8 is an essential virulence gene.     

Complementation analysis of Agrobacterium tumefaciens Ti plasmid virB genes by use of a vir promoter expression vector: virB9, virB10, and virB11 are essential virulence genes.

The virB gene products of the Agrobacterium tumefaciens tumor-inducing (Ti) plasmid have been proposed to mediate T-DNA transport through the bacterial cell wall into plant cells. Previous genetic analysis of the approximately 9.5-kilobase-pair virB operon has been limited to transposon insertion mutagenesis. Due to the polarity of the transposon insertions, only the last gene in the operon, virB11, is known to provide an essential virulence function. We have now begun to assess the contribution of the other virB genes to virulence. First, several previously isolated Tn3-HoHo1 insertions in the 3' end of the virB operon were precisely mapped by nucleotide sequence analysis. Protein extracts from A. tumefaciens strains harboring these insertions on the Ti plasmid were subjected to immunostaining analysis with VirB4-, VirB10-, and VirB11-specific antisera to determine the effect of the insertion on virB gene expression. In this manner, avirulent mutants containing polar insertions in the virB9 and virB10 genes were identified. To carry out a complementation analysis with these virB mutants, expression vectors were constructed that allow cloned genes to be expressed from the virB promoter in A. tumefaciens. These plasmids were used to express combinations of the virB9, virB10, and virB11 genes in trans in the virB insertion mutants, thereby creating strains lacking only one of these three virB gene products. Virulence assays on Kalanchoe daigremontiana demonstrated that in addition to virB11, the virB9 and virB10 genes are required for tumorigenicity.     

Characterization of the virB operon of an Agrobacterium tumefaciens Ti plasmid: nucleotide sequence and protein analysis

The virulence regulon of the Agrobacterium tumefaciens TiC58 plasmid is composed of six operons, virA, virB, virG, virC, virD and virE, which direct the transfer of T-DNA into plant cells. The 9.5 kbp virB operon is the largest of these operons and its entire nucleotide sequence was determined and found to contain eleven open reading frames (ORFs). Gene fusions of each VirB ORF to T7 phi 10 were made and overexpressed in Escherichia coli to confirm that they encode proteins of predicted size. Hydrophobic analysis of these peptide sequences revealed nine proteins that contain hydrophobic spanning regions including signal-peptide-like sequences. These data suggest that the majority of VirB proteins may associate with bacterial cell membranes, while the two additional proteins possess a potential ATP-binding site. Strong homologies in amino acid sequences were observed between nopaline- and octopine-type plasmids. Specific differences in amino acid sequence encoded by VirB ORFs of nopaline and octopine Ti plasmid and a functional role of the gene products are discussed.     

Universal PCR primers for detection of phytopathogenic Agrobacterium strains.

Two PCR primer pairs, based on the virD2 and ipt genes, detected a wide variety of pathogenic Agrobacterium strains. The endonuclease domain of VirD2 protein, which cleaves transferred DNA (T-DNA) border sequences, is highly conserved; primer oligonucleotides specific for the endonuclease portion of virD2 detected all pathogenic strains of Agrobacterium tested. PCR primers corresponding to conserved sequences in ipt, the T-DNA-borne cytokinin synthesis gene, detected only Agrobacterium tumefaciens and distinguished it from Agrobacterium rhizogenes. The virD2 and ipt primer pairs did not interfere with each other when included in the same PCR amplification, and this permitted simultaneous detection of both genes in a single reaction. One nonpathogenic Agrobacterium radiobacter strain contained virD2 but not ipt; we speculate that this strain arose from a pathogenic progenitor through a deletion in the T-DNA. The virD2 primer pair appears to be universal for all pathogenic Agrobacterium species; used together, the primer sets reported here should allow unambiguous identification of Ti plasmid DNA in bacteria isolated from soil and plants.