Affiliation:
1. Department of Food Science and Human Nutrition, University of Florida, Gainesville, Florida 32611
Abstract
ABSTRACT
Vibrio vulnificus
produces human disease associated with raw-oyster consumption or wound infections, but fatalities are limited to persons with chronic underlying illness. Capsular polysaccharide (CPS) is required for virulence, and CPS expression correlates with opaque (Op) colonies that show “phase variation” to avirulent translucent (Tr) phenotypes with reduced CPS. The results discussed here confirmed homology of a
V. vulnificus
CPS locus to the group 1 CPS operon in
Escherichia coli
. However, two distinct
V. vulnificus
genotypes or alleles were associated with the operon, and they diverged at sequences encoding hypothetical proteins and also at unique, intergenic repetitive DNA elements. Phase variation was examined under conditions that promoted high-frequency transition of Op to Tr forms. Recovery of Tr isolates in these experiments showed multiple genotypes, which were designated TR1, TR2, and TR3: CPS operons of TR1 isolates were identical to the Op parent, and cells remained phase variable but expressed reduced CPS. TR2 and TR3 showed deletion mutations in one (
wzb
) or multiple genes, respectively, and deletion mutants were acapsular and locked in the Tr phase. Complementation in
trans
restored the Op phenotype in strains with the
wzb
deletion mutation. Allelic variation in repetitive elements determined the locations, rates, and extents of deletion mutations. Thus, different mechanisms are responsible for reversible phase variation in CPS expression versus genetic deletions in the CPS operon of
V. vulnificus
. Repetitive-element-mediated deletion mutations were highly conserved within the species and are likely to promote survival in estuarine environments.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology