Phosphate-starvation-induced outer membrane proteins of members of the families Enterobacteriaceae and Pseudomonodaceae: demonstration of immunological cross-reactivity with an antiserum specific for porin protein P of Pseudomonas aeruginosa

Poole, Keith; Hancock, Robert E. W.

doi:10.1128/jb.165.3.987-993.1986

Cited by 48 publications

(37 citation statements)

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“…2 all contained a lower-mobility band which migrated at the position of nondenatured OprP. Normally, nondenatured trimers do not react with monomer-specific antisera (31). The fact that these mutant trimers were able to bind the antibody indicated that the heat treatment affected the secondary structure of the protein without causing dissociation of the individual monomers.…”

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

“…Monomer-specific anti-OprP rabbit serum was made during the course of a previous study (31). Trimer-specific antiserum was made as previously described (31), with fast protein liquid chromatography-purified OprP. An anti-malarial epitope monoclonal antibody was obtained from R. Wirtz (Department of Entomology, Walter Reed Army Institute of Research, Washington, D.C.).…”

Section: Methodsmentioning

confidence: 99%

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Insertion mutagenesis of the Pseudomonas aeruginosa phosphate-specific porin OprP

Sukhan

Hancock

1995

J Bacteriol

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The gene encoding the Pseudomonas aeruginosa phosphate-specific porin OprP was subjected to both linker and epitope insertion mutageneses. Nine of the 13 linker mutant genes expressed protein at levels comparable to those obtained with the wild-type gene. These mutant proteins were shown, by indirect immunofluorescence with an OprP-specific antiserum, to be properly exposed at the cell surface. Four of the linker mutant genes expressed protein at reduced levels which were not detectable at the cell surface. A foreign epitope from the circumsporozoite form of the malarial parasite Plasmodium falciparum was cloned into the linker sites of 12 of the 13 mutant genes. Seven of the resultant epitope insertion mutant genes expressed surface-exposed protein.Two of these mutant genes presented the foreign epitope at surface-accessible regions as assessed by indirect immunofluorescence with a malarial epitope-specific monoclonal antibody. The data from these experiments were used to create a topological model of the OprP monomer.The transport of hydrophilic molecules across the outer membranes of gram-negative bacteria is facilitated by a class of proteins known as porins. These proteins form water-filled, membrane-spanning channels which permit the passage of molecules through the membrane and into the periplasmic space (13). Porins have been divided into two categories, nonspecific or general diffusion porins and specific porins (29,30). General diffusion porins allow the passage of any hydrophilic molecule through their channels provided it is smaller than the channels' exclusion limit. Specific porins possess a substratebinding site which makes it possible, at rate-limiting concentrations, for them to transport molecules that bind to that site at a much higher rate than other molecules of comparable size. The structures of a number of general diffusion porins have been determined by both crystallographic (12, 40) and mutagenic (5, 10) techniques. They are composed of three identical subunits, each of which is a 16-stranded ␤-barrel. The ␤-strands are tilted at an angle with respect to the plane of the membrane and are connected by loops exposed to either the outer surface or the periplasmic space. The periplasmically exposed loops tend to be short and regular, while the surface-exposed loops are longer and more variable. The third surface loop actually folds back into the channel so as to constrict its internal diameter (12).While there exists a great deal of data regarding the structure of general porins, there is considerably less information pertaining to the structure of specific porins. The list of specific porins is rather short in comparison with that of general diffusion porins. They include LamB (26) and Tsx (20) in Escherichia coli and OprB (15), OprD (39), OprO (16), and OprP (17) in Pseudomonas aeruginosa. The maltoporin LamB is a well-studied example of a specific porin. This protein, like the general diffusion porins, is composed of three identical subunits, each of which has been proposed to be in the ...

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Insertion mutagenesis of the Pseudomonas aeruginosa phosphate-specific porin OprP

Sukhan

Hancock

1995

J Bacteriol

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“…Purified porins are immunogenic in mice and rabbits (19,43) as trimers or monomers. Although antisera to trimers usually do not recognize monomers and vice versa (19,43,46), MAbs raised to monomers can sometimes recognize epitopes on trimers (2).…”

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Structural relatedness of enteric bacterial porins assessed with monoclonal antibodies to Salmonella typhimurium OmpD and OmpC

et al. 1992

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The immunochemistry and structure of enteric bacterial porins are critical to the understanding of the immune response to bacterial infection. We raised 41 monoclonal antibodies (MAbs) to SalmoneUla typhimurium OmpD and OmpC porin trimers and monomers. Enzyme-linked immunosorbent assays, immunoprecipitations, and/or Western immunoblot techniques indicated that 39 in the panel are porin specific and one binds to the lipopolysaccharide; the specificity of the remaining MAb probably lies in the porin-lipopolysaccharide complex. Among the porin-specific MAbs, 10 bound cellsurface-exposed epitopes, one reacted with a periplasmic epitope, and the remaining 28 recognized determinants that are buried within the outer membrane bilayer. Many of the MAbs reacting with surface-exposed epitopes were highly specific, recognizing only the homologous porin trimers; this suggests that the cellsurface-exposed regions of porins tend to be quite different among S. typhimurium OmpF, OmpC, and OmpD porins. Immunological cross-reaction showed that S. typhimurium OmpD was very closely related to Escherichia coli NmpC and to the Lc porin of bacteriophage PA-2. Immunologically, E. coli OmpG and protein K also appear to belong to the family of closely related porins including E. coli OmpF, OmpC, PhoE, and NmpC and S. typhimurium OmpF, OmpC, and OmpD. It appears, however, that S. typhimurium "PhoE" is not closely related to this group. Finally, about one-third of the MAbs that presumably recognize buried epitopes reacted with porin domains that are widely conserved in 13 species of the family Enterobacteriaceae, but apparently not in the seven nonenterobacterial species tested. These data are evaluated in relation to host immune response to infection by gram-negative bacteria.

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“…These proteins are known collectively as pains. Porin P is an unique type of pain, because it is a phosphate-starvation-induced protein that facilitates the uptake of phosphate and polyphosphate (Hancock et al 1982(Hancock et al , 1992Hancock and Benz 1986;Poole and Hancock 1986). Pomeroy et al (1995) showed phosphate to be the primary limiting factor for bacterial production and microbial community respiration in the Gulf of Mexico.…”

Section: The Dissolved Proteins With Apparent Molecular Massesmentioning

confidence: 99%

Discrete dissolved and particulate proteins in oceanic waters

Tanoue

Ishii

Midorikawa

1996

Limnology & Oceanography

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Dissolved and particulate proteins were extracted from samples of surface seawater collected from the equatorial area, through the Indian Ocean, to the Antarctic Ocean. Dissolved proteins were also observed in waters of the equatorial Pacific. Dissolved and particulate proteins with a wide range of molecular masses were detected by sodium dodecylsulfate‐polyacrylamide gel electrophoresis (SDS‐PAGE). The particulate proteins were made up of many background proteins of overlapping molecular weight, which caused uniform staining in the gel. However, distinct bands of individual proteins with apparent molecular masses of ∼66 and 45 kDa were evident among the background proteins. Electrophoretograms of dissolved proteins were quite different from those of the particulate proteins. The dissolved background proteins were not significant, and fewer than 30 proteins were clearly visualized as major dissolved proteins. Dissolved proteins with apparent molecular masses of 48 and 37 kDa were commonly found as major proteins in all samples examined. Such molecular characteristics of dissolved and particulate proteins are consistent with previous results from the North Pacific. Thus, it appears that the processes by which specific proteins from marine organisms are transferred to and accumulated in the pools of dissolved and particulate organic matter are identical throughout the world’s oceans.

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Phosphate-starvation-induced outer membrane proteins of members of the families Enterobacteriaceae and Pseudomonodaceae: demonstration of immunological cross-reactivity with an antiserum specific for porin protein P of Pseudomonas aeruginosa

Cited by 48 publications

References 31 publications

Insertion mutagenesis of the Pseudomonas aeruginosa phosphate-specific porin OprP

Insertion mutagenesis of the Pseudomonas aeruginosa phosphate-specific porin OprP

Structural relatedness of enteric bacterial porins assessed with monoclonal antibodies to Salmonella typhimurium OmpD and OmpC

Discrete dissolved and particulate proteins in oceanic waters

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