Thomas C. Currier

The irreversible loss of crown gall-inducing ability of Agrobacterium tumefaciens strain C-58 during growth at 37 C is shown to be due to loss of a large plasmid (1.2 X 10-8 daltons). The gene responsible for this high rate of plasmid loss at elevated temperatures seems to be located on the plasmid. In addition, another spontaneous avirulent variant, A. tumefaciens strain IIBNV6 is shown to lack the virulence plasmid which its virulent sibling strain, IIBV7, possesses. Deoxyribonucleic acid reassociation measurements prove that the plasmid is eliminated, not integrated into the chromosome, in both of the avirulent derivatives. Transfer of virulence from donor strain C-58 to avirulent recipient strain A136 results from the transfer of a plasmid, which appears identical to the donor plasmid by deoxyribonucleic acid reassociation measurements. The transfer of virulence in another cross, K27 X A136, was also shown to result from the transfer of a large plasmid. These findings establish unequivocally that the large plasmid determines virulence. Two additional genetic determinants have been located on the virulence plasmid of A. tumefaciens strain C-58: the ability to utilize nopaline and sensitivity to a bacteriocin produced by strain 84. The latter trait can be exploited for selection of avirulent plasmid-free derivatives of strain C-58. The trait of nopaline utilization appears to be on the virulence plasmid also in strains IIBV7 and K27.

Renaturation kinetics of labeled Agrobacterium tumefaciens DNA are not influenced by addition of 10(4)-fold excess of crown gall tumor DNA. Reconstruction experiments demonstrated that 0.01% added bacterial DNA produces a detectable increase in rate of renaturation of labeled DNA. Crown gall tumor DNA therefore cannot contain as much as 0.01% A. tumefaciens DNA (one entire bacterial genome per three diploid tumor cells). By the same technique, PS8 bacteriophage DNA is not detected in crown gall tumor DNA under conditions that allow detection of 0.0007-0.001% added phage DNA. Crown gall tumor DNA cannot contain as much as one entire phage genome per diploid tumor cell. The presence of a small fraction of either genome (less than 5%), even if present as multiple copies, would escape detection by this method.

Homology between the large plasmids of 15 pathogenic Agrobacterium strains isolated from various parts of the world has been measured and was found to vary over a wide range, from 3 to 100%. Two genetically distinct groups of plasmids can be identified: one closely related to the plasmid of A. tumefaciens A6, an octopine-utilizing strain, and the other closely related to the plasmid of A. tumefaciens C-58, a nopaline-utilizing strain. The plasmids of four Agrobacterium strains do not belong to either group. One of these four strains utilizes octopine, one utilizes nopaline, and two utilize neither. Three strains contained two large plasmids. In one of these strains, the two plasmids were not homologous to one another. Chromosomal homologies for the Agrobacterium strains surveyed also vary over a wide range, but do not correlate with plasmid homologies. Neither do plasmid homologies correlate with any numerical classification scheme. The significance of these plasmid homology studies for crown gall tumorigenesis is considered.