Genes on the 90-kilobase plasmid of Salmonella typhimurium confer low-affinity cobalamin transport: relationship to fimbria biosynthesis genes.

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A cloned fragment of Salmonella typhimurium DNA complemented the defect in cobalamin uptake of Escherichia coli or S. typhimurium btuB mutants, which lack the outer membrane high-affinity transport protein. This DNA fragment did not carry btuB and was derived from the 90-kb plasmid resident in S. typhimurium strains. The cobalamin transport activity engendered by this plasmid had substantially lower affinity and activity than that conferred by btuB. Complementation behavior and maxicell analyses of transposon insertions showed that the cloned fragment encoded five polypeptides, at least two of which were required for complementation activity. The nucleotide sequence of the coding region for one of these polypeptides, an outer membrane protein of about 84,000 Da, was determined. The deduced polypeptide had properties typical of outer membrane proteins, with an N-terminal signal sequence and a predicted preponderance of beta structure. This outer membrane protein had extensive amino acid sequence homology with PapC and FaeD, two E. coli outer membrane proteins involved in the export and assembly of pilus and fimbria subunits on the cell surface. This homology raises the likelihood that the observed cobalamin transport did not result from the production of an authentic transport system but that overexpression of one or more outer membrane proteins allowed leakage of cobalamins through the perturbed outer membrane. These results also suggest that the 90-kb plasmid carries genes encoding an adherence mechanism.

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