Topology of outer membrane pore protein PhoE of Escherichia coli. Identification of cell surface-exposed amino acids with the aid of monoclonal antibodies.

11 intradomain recombinants between H-2Kd and H-2Dd were produced using an original technique based on in vivo recombination in Escherichia coli. After transfection into mouse L cells, all these recombinants were expressed at high levels on the cell surface. The specificities of 77 mAbs were examined on these cell lines. mAbs could be organized in 12 groups. In each group, a small number of amino acids participating in the recognized epitope(s) were identified. In a few instances, noncontinuous epitopes comprising amino acids belonging to different domains of the antigen were found. The data thus obtained are compatible with those produced in previous exon-shuffling experiments, but permit a much more precise definition of recognized epitope(s).

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Initial Steps of Colicin E1 Import across the Outer Membrane of Escherichia coli

Journal of Bacteriology ◽

10.1128/jb.01448-06 ◽

2007 ◽

Vol 189 (7) ◽

pp. 2667-2676 ◽

Cited By ~ 26

Author(s):

Muriel Masi ◽

Phu Vuong ◽

Matthew Humbard ◽

Karen Malone ◽

Rajeev Misra

Keyword(s):

Escherichia Coli ◽

Cell Surface ◽

Outer Membrane ◽

Vitamin B ◽

Whole Cells ◽

E Coli ◽

Colicin E1 ◽

Unfolded State ◽

Translocation Domain

ABSTRACT Data suggest a two-receptor model for colicin E1 (ColE1) translocation across the outer membrane of Escherichia coli. ColE1 initially binds to the vitamin B12 receptor BtuB and then translocates through the TolC channel-tunnel, presumably in a mostly unfolded state. Here, we studied the early events in the import of ColE1. Using in vivo approaches, we show that ColE1 is cleaved when added to whole cells. This cleavage requires the presence of the receptor BtuB and the protease OmpT, but not that of TolC. Strains expressing OmpT cleaved ColE1 at K84 and K95 in the N-terminal translocation domain, leading to the removal of the TolQA box, which is essential for ColE1's cytotoxicity. Supported by additional in vivo data, this suggests that a function of OmpT is to degrade colicin at the cell surface and thus protect sensitive E. coli cells from infection by E colicins. A genetic strategy for isolating tolC mutations that confer resistance to ColE1, without affecting other TolC functions, is also described. We provide further in vivo evidence of the multistep interaction between TolC and ColE1 by using cross-linking followed by copurification via histidine-tagged TolC. First, secondary binding of ColE1 to TolC is dependent on primary binding to BtuB. Second, alterations to a residue in the TolC channel interfere with the translocation of ColE1 across the TolC pore rather than with the binding of ColE1 to TolC. In contrast, a substitution at a residue exposed on the cell surface abolishes both binding and translocation of ColE1.

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An Excretory Function for the Escherichia coli Outer Membrane Pore TolC: Upregulation of marA and soxS Transcription and Rob Activity Due to Metabolites Accumulated in tolC Mutants

Journal of Bacteriology ◽

10.1128/jb.00507-09 ◽

2009 ◽

Vol 191 (16) ◽

pp. 5283-5292 ◽

Cited By ~ 43

Author(s):

Judah L. Rosner ◽

Robert G. Martin

Keyword(s):

Escherichia Coli ◽

Outer Membrane ◽

Bile Salts ◽

Efflux Pumps ◽

Membrane Channel ◽

Protein Activity ◽

Membrane Pore ◽

Excretory Function ◽

Outer Membrane Channel ◽

Transcriptional Fusions

ABSTRACT Efflux pumps function to rid bacteria of xenobiotics, including antibiotics, bile salts, and organic solvents. TolC, which forms an outer membrane channel, is an essential component of several efflux pumps in Escherichia coli. We asked whether TolC has a role during growth in the absence of xenobiotics. Because tolC transcription is activated by three paralogous activators, MarA, SoxS, and Rob, we examined the regulation of these activators in tolC mutants. Using transcriptional fusions, we detected significant upregulation of marRAB and soxS transcription and Rob protein activity in tolC mutants. Three mechanisms could be distinguished: (i) activation of marRAB transcription was independent of marRAB, soxR, and rob functions; (ii) activation of soxS transcription required SoxR, a sensor of oxidants; and (iii) Rob protein was activated posttranscriptionally. This mechanism is similar to the mechanisms of upregulation of marRAB, soxS, and Rob by treatment with certain phenolics, superoxides, and bile salts, respectively. The transcription of other marA/soxS/rob regulon promoters, including tolC itself, was also elevated in tolC mutants. We propose that TolC is involved in the efflux of certain cellular metabolites, not only xenobiotics. As these metabolites accumulate during growth, they trigger the upregulation of MarA, SoxS, and Rob, which in turn upregulate tolC and help rid the bacteria of these metabolites, thereby restoring homeostasis.

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