Characterization of the rcsB gene from Erwinia amylovora and its influence on exoploysaccharide synthesis and virulence of the fire blight pathogen

Abstract

RcsB belongs to a family of positive regulators of exopolysaccharide synthesis in various enterobacteria. The rcsB gene of the fire blight pathogen Erwinia amylovora was cloned by PCR amplification with consensus primers, and its role in exopolysaccharide (EPS) synthesis was investigated. Its overexpression from high-copy-number plasmids stimulated the synthesis of the acidic EPS amylovoran and suppressed expression of the levan-forming enzyme levansucrase. Inactivation of rcsB by site-directed mutagenesis created mutants that were deficient in amylovoran synthesis and avirulent on host plants. In addition, a cosmid which complemented rcsB mutants was selected from a genomic library. The spontaneous E. amylovora mutant E8 has a similar phenotype and was complemented by the cloned rcsB gene. The rcsB region of strain E8 was also amplified by PCR, and the mutation was characterized as a nine-nucleotide deletion at the start of the rcsB gene. Nucleotide sequence analysis of the E. amylovora rcsB region and the predicted amino acid sequence of RcsB revealed extensive homology to rcsB and the encoded protein of other bacteria such as Escherichia coli and Erwinia stewartii. In all three organisms, rcsB is localized adjacent to the rcsC gene, which is transcribed in the opposite direction of rcsB. The E. amylovora rcsB gene has now been shown to strongly affect the formation of disease symptoms of a plant pathogen.