A mutational analysis of lesion-forming ability was undertaken in Pseudomonas syringae pv. syringae B728a, causal agent of bacterial brown spot disease of bean. Following a screen of 6,401 Tn5-containing derivatives of B728a on bean pods, 26 strains that did not form disease lesions were identified. Nine of the mutant strains were defective in the ability to elicit the hypersensitive reaction (HR) and were shown to contain Tn5 insertions within the P. syringae pv. syringae hrp region. Ten HR ؉ mutants were defective in the production of the toxin syringomycin, and a region of the chromosome implicated in the biosynthesis of syringomycin was deleted in a subset of these mutants. The remaining seven lesion-defective mutants retained the ability to produce protease and syringomycin. Marker exchange mutagenesis confirmed that the Tn5 insertion was causal to the mutant phenotype in several lesion-defective, HR ؉ strains. KW239, a lesion-and syringomycin-deficient mutant, was characterized at the molecular level. Sequence analysis of the chromosomal region flanking the Tn5 within KW239 revealed strong similarities to a number of known Escherichia coli gene products and DNA sequences: the nusA operon, including the complete initiator tRNA Met gene, metY; a tRNA Leu gene; the tpiA gene product; and the MrsA protein. Removal of sequences containing the two potential tRNA genes prevented restoration of mutant KW239 in trans. The Tn5 insertions within the lesion-deficient strains examined, including KW239, were not closely linked to each other or to the lemA or gacA genes previously identified as involved in lesion formation by P. syringae pv. syringae.The majority of Pseudomonas syringae genes known to be involved in plant disease also control plant interaction phenotypes not directly related to pathogenicity. Mutations in hrp genes, for example, disrupt symptom development, growth in association with host plants, and the hypersensitive reaction (HR) on nonhost plants (for a review, see reference 60). The discovery of the lemA gene of P. syringae pv. syringae B728a, a causal agent of bacterial brown spot disease of bean (Phaseolus vulgaris), demonstrated that lesion manifestation can be genetically separated from other interactions with plants. The lemA gene is required for disease lesion formation but not for nonhost hypersensitivity (59). Furthermore, the lemA gene is essential for production of the toxin syringomycin and an extracellular protease activity (21, 46). Genetic evidence and DNA sequence analysis of the lemA gene support a regulatory role for the predicted LemA protein, which is similar to a family of transmembrane histidine protein kinase sensors of two-component regulatory systems (4,20,46,61). More recently, a study of spontaneous mutants of B728a and other P. syringae pv. syringae strains led to the identification of the gacA gene as the second component, the response regulator (43, 47). Mutants of gacA have a phenotype similar to that of lemA mutants, being deficient in disease lesion formation and in ...
