Introduction of genetic material into plant cells.

The tumor-inducing (Ti) plasmid of the soil microorganism Agrobacterium tumefaciens is the agent of crown gall disease in dicotyledonous plants. The Ti plasmid contains two regions that are essential for the production of transformed cells. One of these regions, termed transfer DNA, induces tumor formation and is found in all established plant tumor lines; the other, termed the virulence region, is essential for the formation but not the maintenance of tumors. Transfer DNA, which transfers to the plant genomes in a somewhat predictable manner, can be increased in size by the insertion of foreign DNA without its transferring ability being affected. The tumor-causing genes can be removed so that they no longer interfere with normal plant growth and differentiation. This modified Ti plasmid can thus be used as a vector for the transfer of foreign genes into plants.

Intergeneric transfer and exchange recombination of restriction fragments cloned in pBR322: a novel strategy for the reversed genetics of the Ti plasmids of Agrobacterium tumefaciens.

Transmission of ColE1/pMB1-derived plasmids, such as pBR322, from Escherichia coli donor strains was shown to be an efficient way to introduce these plasmids into Agrobacterium. This was accomplished by using E. coli carrying the helper plasmids pGJ28 and R64drd11 which provide the ColE1 mob functions and tra functions, respectively. For example, the broad host-range replication plasmid, pGV1150, a co-integrate plasmid between pBR322 and the W-type mini-Sa plasmid, pGV1106, was transmitted from E. coli to A. tumefaciens with a transfer frequency of 4.5 x 10(-3). As pBR322 clones containing pTiC58 fragments were unable to replicate in Agrobacterium, these clones were found in Agrobacterium only if the acceptor carried a Ti plasmid, thus allowing a co-integration of the pBR322 clones with the Ti plasmid by homology recombination. These observations were used to develop an efficient method for site-specific mutagenesis of the Ti plasmids. pTiC58 fragnents, cloned in pBR322, were mutagenized in vitro and transformed into E. coli. The mutant clones were transmitted from an E. coli donor strain containing pGJ28 and R64drd11 to an Agrobacterium containing a target Ti plasmid. Selecting for stable transfer of the mutant clone utilizing its antibiotic resistance marker(s) gave exconjugants that already contained a co-integrate plasmid between the mutant clone and the Ti plasmid. A second recombination can dissociate the co-integrate plasmid into the desired mutant Ti plasmid and a non-replicating plasmid formed by the vector plasmid pBR322 and the target Ti fragment. These second recombinants lose the second plasmid and they are identified by screening for the appropriate marker combination.