Pathogenität von Pseudomonas syringae subsp. savastonoi‐Mutanten, die unvollkommen in der Phytohonnonproduktion sind

The present study compares the pathogenicity on olive and oleander plants of three wild‐type strains of Pseudomonas syringae subsp. savastanoi (ITM317 and PBa230 from olive and ITM519 from oleander) and three phytohormone‐deficient mutants of ITM519: ITM519‐41 (Iaa + /cytokinins‐), ITM519‐7 (Iaa − /cytokinins + ), ITM519‐6 (Iaa − /cytokinins − ), Mutants not producing IAA (ITM519‐7and ITM519‐6) only induced necrosis of the inoculated tissues (ITM519‐,6) or swellings on the stems attributed to cytokinin production accompanied by necrosis (ITM519‐7). By contrast, the Iaa + /cytokinins − mutant (ITM519‐41) induced attenuated symptoms on stems and knots similar to those obtained with the parent strain on oleander leaves. Olive strains induced necrosis of oleander leaves and were virulent and avirulent, respectively, on olive and oleander stems. Strain ITM519 and its three mutants were all able to multiply in oleander leaves at similar rates, reaching the same final populations. By contrast, the two olive strains multiply poorly, reaching populations c. 10 2 ‐fold lower. These results confirm that expression of IAA genes alone is sufficient to initiate the development of knots on oleander while cytokinins are necessary for the full expression of the disease symptoms (determining knot size). The findings also indicate that the plant tissues (stems and leaves) react differently to the various strains of the bacterium and, furthermore, suggest that, besides phytohormones, other pathogenetic factors could be involved in this host‐pathogen interaction. The necrotic reaction of oleander leaves heavily inoculated with olive strains was interpreted as a possible form of hypersensitivity reaction.