Genetic studies indicate that three of the four polypeptides encoded within the virD operon of the Agrobacterium tumefaciens Ti plasmid are essential for virulence. In order to determine whether the fourth polypeptide, VirD3, has any role in virulence, complementation analysis was used. An A. tumefaciens strain, A348AD, which lacked the entire virD operon in the Ti plasmid pTiA6, was constructed. Plasmids containing defined regions of the virD operon were introduced into this strain, and virulence was tested by the strains' abilities to form tumors on Kalanchoe leaves, tomato stems, and potato tubers. As expected, deletion of the virD operon led to an avirulent phenotype. The virulence of this strain could be restored by providing virDI, virD2, and virD4 in trans. No requirement for virD3 in tumor formation was observed in these assays.Agrobactenum tumefaciens is a phytopathogenic bacterium responsible for causing crown gall tumors on plants.Tumor formation involves the transfer of a segment of a tumor-inducing (Ti) plasmid from the bacterium to the plant cell followed by the stable integration of the transferred DNA (T-DNA) into the plant nuclear genome (reviewed in references 16 and 28). The T-DNA is flanked by a 24-bp imperfect direct-repeat sequence, the border sequence, at its termini. The DNA transfer process is catalyzed by the Ti plasmid virulence (vir) genes that are arranged in at least eight operons, virA through virH (3,10,13,18). Of these, virA and virG are the regulatory loci (20) and are members of the bacterial two-component regulatory systems. These genes are constitutively expressed in the bacterium and coordinately induce expression of all of the virulence genes when a bacterium encounters a susceptible host. Under these conditions, the Ti plasmid DNA is processed to form a single-stranded T-strand DNA that is believed to be an intermediate in the DNA transfer process (1,19).The initial reaction for the T-strand DNA synthesis is catalyzed by the enzymes encoded within the virD locus (26). DNA sequence analysis studies indicated that virD can potentially encode five polypeptides, VirDl to VirD5 (9,15,26 site-and strand-specific nicking reaction at the T-DNA borders (9, 26) and becomes covalently attached to the 5' end of the nicked DNA (6,8,22,24,27). This reaction is the first step for T-strand DNA synthesis. VirDl has been shown to possess a DNA-relaxing activity (4). The functions of the other two VirD proteins, VirD3 and VirD4, remain unknown. However, mutational studies demonstrate that VirD4 is required for agrobacterial pathogenicity (18). Stud-* Corresponding author. ies to date have established the requirement of virDl and virD2 in T-DNA processing and that of virD4 in the pathogenic function of Agrobactenium species. The role of virD3 in pathogenicity is not known. In the present study, we demonstrate that virD3 is not essential for tumorigenicity on several plant species.Construction of a Ti plasmid lacking virD. A deletion of the pTiA6 virD locus was introduced by replacing the virD...
