123 research outputs found

    FhuA Barrel-Cork Hybrids Are Active Transporters and Receptors

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    The crystal structure of Escherichia coli FhuA reveals a β-barrel domain that is closed by a globular cork domain. It has been assumed that the proton motive force of the cytoplasmic membrane through the interaction of the TonB protein with the TonB box of the cork opens the FhuA channel. Yet, deletion of the cork results in an FhuA derivative, FhuAΔ5–160, that still displays TonB-dependent substrate transport and phage receptor activity. To investigate this unexpected finding further, we constructed FhuAΔ5–160 derivatives of FhuA proteins from Salmonella paratyphi B, Salmonella enterica serovar Typhimurium, and Pantoea agglomerans. The FhuAΔ5–160 proteins inserted correctly into the outer membrane, and with the exception of the P. agglomerans protein, transported ferrichrome and albomycin. FhuA hybrids consisting of the β-barrel of one strain and the cork of another strain were active and showed higher TonB-dependent ferrichrome transport rates than the corkless derivatives. Exceptions were the E. coli β-barrel/Salmonella serovar Typhimurium cork hybrid protein and the Salmonella serovar Typhimurium β-barrel/P. agglomerans cork hybrid protein, both of which were less active than the β-barrels alone. Each of the FhuA mutant proteins displayed activity for each of their ligands, except for phage T5, only when coupled to TonB. The hybrid FhuA proteins displayed a similar activity with the E. coli TonB protein as with their cognate TonB proteins. Sensitivity to phages T1, T5, and φ80, rifamycin CGP 4832, and colicin M was determined by the β-barrel, whereas sensitivity to phage ES18 and microcin J25 required both the β-barrel and cork domains. These results demonstrate that the β-barrel domain of FhuA confers activity and specificity and responds to TonB and that the cork domains of various FhuA proteins can be interchanged and contribute to the activities of the FhuA hybrids
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