Caractérisation de souches de Dickeya solani et identification de signaux bactériens ou végétaux impliqués dans l'induction de gènes de virulence

摘要

Dickeya solani is a species consisting of newly emerged plant pathogenic bacteria that cause blackleg and soft rot diseases. They are responsible for great damages to potato plantations in most of European countries. D. solani strains produce a wide range of plant cell-wall degrading enzymes which are the main virulence factors. The aims of the study were: 1) phenotypic and genotypic characterizations of the D. solani strains isolated in countries with different climatic conditions: Poland, Finland and Israel, 2) study of the potato tuber extract influence on the expression of a few selected D. solani genes : pelD, pelL, tssK, lfaA,3) comparative genomics of ten D. solani strains, performed on 4 genomes sequenced for this study and 6 genome sequences available in the GenBank databases. The results showed that the strains from different climatic conditions have identical profiles in rep-PCR (with three different primers) and in Restriction Fragments Lenght Polymorphism-Pulse Field Gel Electrophoresis. However, they do differ phenotypically, especially in the activity of plant cell-wall degrading enzymes. Polish strains have higher activities of pectinolytic, cellulolytic and proteolytic enzymes than Finnish and Israeli strains. D. solani mutants in the pelD, pelL, tssK, lfaA genes were constructed by site-specific mutagenesis. The highest induction by plant extracts was observed for the lfaA gene. The expression of pelL is also induced by plant derived signal(s), but not that of pelD and tssK. Comparative genomics helped to elucidate the D. solani pangenome. The 10 D. solani strains genomes are coding for a total of 41 947 proteins which were grouped into 5 045 Orthologous Groups, 3 809 belonging to the core genome, 413 to the accessory genome and 823 to the unique genome. Some pathogenicity-related genes as well as their regulators were selected on the basis of the knowledge available for D. dadantii 3937, the most studied Dickeya strain, which belongs to a closely related species. Analysis of their protein sequence showed no difference in the sequence of those genes within the 10 genomes. All the genetic studies proved that D. solani strains form a very homogenous group. On the other hand, the phenotypic analysis showed some variability among strains from different climatic conditions. The observed variations in the phenotypic traits can results from a different regulation of the expression of the genes encoding virulence factors which are influenced by temperature, pH, iron deprivation, oxygen and nitrogen availability, as well as by the presence of plant compounds.