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. 1999 Jan;181(2):368-74.
doi: 10.1128/JB.181.2.368-374.1999.

Molecular characterization of eutF mutants of Salmonella typhimurium LT2 identifies eutF lesions as partial-loss-of-function tonB alleles

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Molecular characterization of eutF mutants of Salmonella typhimurium LT2 identifies eutF lesions as partial-loss-of-function tonB alleles

M G Thomas et al. J Bacteriol. 1999 Jan.

Abstract

The eutF locus of Salmonella typhimurium LT2 was identified as a locus necessary for the utilization of ethanolamine as a sole carbon source. Initial models suggested that EutF was involved in either ethanolamine transport or was a transcriptional regulator of an ethanolamine transporter. Phenotypic characterization of eutF mutants suggested EutF was somehow involved in 1,2-propanediol, propionate, and succinate utilization. Here we provide evidence that two alleles defining the eutF locus, Delta903 and eutF1115, are partial-loss-of-function tonB alleles. Both mutations were complemented by plasmids containing a wild-type allele of the Escherichia coli tonB gene. Immunoblot analysis using TonB monoclonal antibodies detected a TonB fusion protein in strains carrying eutF alleles. Molecular analysis of the Delta903 allele identified a deletion that resulted in the fusion of the 3' end of tonB with the 3' end of trpA. In-frame translation of the tonB-trpA fusion resulted in the final 9 amino acids of TonB being replaced by a 45-amino-acid addition. We isolated a derivative of a strain carrying allele Delta903 that regained the ability to grow on ethanolamine as a carbon and energy source. The molecular characterization of the mutation that corrected the Eut- phenotype caused by allele Delta903 showed that the new mutation was a deletion of two nucleotides at the tonB-trpA fusion site. This deletion resulted in a frameshift that replaced the 45-amino-acid addition with a 5-amino-acid addition. This change resulted in a TonB protein with sufficient activity to restore growth on ethanolamine and eut operon expression to nearly wild-type levels. It was concluded that the observed EutF phenotypes were due to the partial loss of TonB function, which is proposed to result in reduced cobalamin and ferric siderophore transport in an aerobic environment; thus, the eutF locus does not exist.

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Figures

FIG. 1
FIG. 1
Gene organization of plasmids tested for complementation. All represented reading frames are based on the E. coli sequence (6). Complementation is scored as growth (+) or no growth (−) on NCE plates supplemented with ethanolamine (30 mM), Met (0.3 mM), Trp (0.1 mM), MgSO4 (1 mM), and CNCbl (15 nM).
FIG. 2
FIG. 2
Immunoblot analysis of TonB protein in strains TR6583 (tonB+), JE1418 (Δ903), JE1291 (tonB+), and JE1690 (eutF1115). The amount of material loaded in each lane was the equivalent of 0.1 A650 of whole cells. Proteins were separated by SDS-PAGE. Samples were grown in the presence or absence of 45 μM FeSO4. Deg., degradation.
FIG. 3
FIG. 3
Partial nucleotide and predicted amino acid sequences of tonB genes from TR6583, JE4163, and JE2123. (A) Nucleotide sequence flanking the tonB-trpA fusion site. The TR6583 sequence corresponds to bases 790 to 837 of wild-type tonB (16). Boldface bases correspond to bases from trpA; boldface underlined bases correspond to bases deleted in a strain carrying allele Δ1235. (B) Predicted amino acid sequence of TonB. The starting proline residue corresponds to amino acid 221 of the published sequence (16). Boldface residues are predicted amino acids from in-frame translation of tonB from the Δ903 allele; boldface underlined residues are predicted amino acids from in-frame translation of the Δ1235 allele. DEL903 and DEL1235 are referred to as Δ903 and Δ1235, respectively, throughout the text.

References

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