Genetics of galactose metabolism of Erwinia amylovora and its influence on polysaccharide synthesis and virulence of the fire blight pathogen

Abstract

Galactose metabolism mutants of Erwinia amylovora were created by transposon insertions and characterized for their growth properties and interaction with plant tissue. The nucleotide sequence of the galE gene was determined. The gene, which encodes UDP-galactose 4-epimerase, shows homology to the galE genes of Escherichia coli, Neisseria gonorrhoeae, Rhizobium meliloti, and other gram-negative bacteria. Cloned DNA with the galE and with the galT and galK genes did not share borders, as judged by the lack of common fragments in hybridization with chromosomal DNA. These genes are thus located separately on the bacterial chromosome. In contrast to the gal operon of E. coli, the galE gene of E. amylovora is constitutively expressed, independently of the presence of galactose in the medium. The function of the galE gene but not of the galT or galK gene is required for bacterial virulence on pear fruits and seedlings. In the absence of galactose, the galE mutant was deficient in amylovoran synthesis. Subsequently, the galE mutant cells elicited host defense reactions, and they were not stained by fluorescein isothiocyanate-labelled lectin, which efficiently binds to amylovoran capsules of E. amylovora. The mutation affected the side chains of bacterial lipopolysaccharide, but an intact O antigen was not required for virulence. This was shown with another mutant, which could be complemented for virulence but not for side chain synthesis of lipopolysaccharide.