Plant defence and delayed infection of alfalfa pseudonodules induced by an exopolysaccharide (EPS I)-deficient Rhizobium meliloti mutant

Mutants of the symbiotic soil bacterium Rhizobium meliloti that fail to synthesize the acidic exopolysaccharide EPS I were unable to induce infected root nodules on Medicago sativa L. (alfalfa). These strains, however, elicited pseudonodules that contained no infection threads or bacteroids. The cortical cell walls of the pseudonodules were abnormally thick and incrusted with an autofluorescent material. Parts of these cell walls and wall appositions contained callose. Biochemical analysis of nodules induced by the EPS I-deficient R. meliloti mutant revealed an increase of phenolic compounds bound to the nodule cell walls when compared with the wild-type strain. These microscopic and biochemical data indicated that a general plant defence response against the EPS I-deficient mutant of R. meliloti was induced in alfalfa pseudonodules. Following prolonged incubation with the EPS I-deficient R. meliloti mutant, the defence system of the alfalfa plant could be overcome by the rhizobium mutant. In the case of the delayed infections, the mutants colonized lobes of the pseudonodules, but the infection threads in these nodules had an abnormal morphology. They were greatly enlarged and did not contain the typical gum-like matrix inside. The bacteria were tightly packed. Based on the mechanism of phytopathogenic interactions, we propose that EPS I or a related compound may act as a suppressor of the alfalfa plant defence system, enabling R. meliloti to infect the plant.