The knockout of enterobactin-related gene in pectobacterium atrosepticum results in reduced stress resistance and virulence towards the primed plants

Abstract

Siderophores produced by microorganisms to scavenge iron from the environment have been shown to contribute to virulence and/or stress resistance of some plant pathogenic bacteria. Phytopathogenic bacteria of Pectobacterium genus possess genes for the synthesis of siderophore enterobactin, which role in plant-pathogen interactions has not been elucidated. In the present study we characterized the phenotype of the mutant strain of Pba deficient for the enterobactin-biosynthetic gene entA. We showed that enterobactin may be considered as a conditionally beneficial virulence factor of Pba. The entA knockout did not reduce Pba virulence on non-primed plants; however, salicylic acid-primed plants were more resistant to ∆entA mutant than to the wild type Pba. The reduced virulence of ∆entA mutant towards the primed plants is likely explained by its compromised resistance to oxidative stress.