Agrobacterium rhizogenes mutants that fail to bind to plant cells.

Transposon insertion mutants of Agrobacterium rhizogenes were screened to obtain mutant bacteria that failed to bind to carrot suspension culture cells. A light microscope binding assay was used. The bacterial isolates that were reduced in binding to carrot cells were all avirulent on Bryophyllum diagremontiana leaves and on carrot root disks. The mutants did not appear to be altered in cellulose production. The composition of the medium affected the ability of the parent and mutant bacteria to bind to carrot cells. The parent strain bound to carrot cells in greatest numbers in low-ionic-strength media such as 4% sucrose but still showed significant binding in Murashige-Skoog tissue culture medium. All of the mutants showed reduced binding in 4% sucrose after 2 h of incubation with carrot cells. One mutant was delayed in binding in 4% sucrose. This mutant and one other mutant also showed reduced binding to carrot cells in Murashige-Skoog medium. To determine whether the Tn5 insertion was responsible for the mutant phenotype, DNA containing the Tn5 insertion was cloned from the mutant bacteria and used to introduce Tn5 into the parent strain in the same location as in the original mutant by marker exchange. The resulting transconjugants had the same avirulent, nonattaching phenotype as the original mutants, suggesting that the mutant phenotype was due to the Tn5 insertion. The cloned DNA containing the Tn5 insertion was also tested for homology to DNA of known genes that affect attachment of Agrobacterium tumefaciens to plant cells by DNA hybridization. No homology to chv, att, or pscA clones was observed. In addition, cloned chv, att, and pscA genes from A. tumefaciens were unable to complement the attachment-minus A. rhizogenes mutants. Thus, the A. rhizogenes nonattaching mutants appear to be different from the previously described A. tumefaciens mutants.