Your search keyword '"LamB protein"' showing total 41 results

1. Preprotein transfer to theEscherichia colitranslocase requires the co‐operative binding of SecB and the signal sequence to SecA

Author

J.P.W. van der Wolk, Arnold J. M. Driessen, Carol A. Kumamoto, J.G. de Wit, P. Fekkes, Harvey H. Kimsey, Moleculaire Microbiologie, GBB Cluster Microbiologie, and Groningen Biomolecular Sciences and Biotechnology

Subjects

PRECURSOR PROTEINS, Signal peptide, Recombinant Fusion Proteins, Protein subunit, Mutant, Protein Sorting Signals, environment and public health, Microbiology, LEADER PEPTIDE, Bacterial Proteins, Escherichia coli, Inner membrane, Translocase, CHAPERONE SECB, Protein Precursors, Binding site, Molecular Biology, Adenosine Triphosphatases, Binding Sites, SecA Proteins, biology, Escherichia coli Proteins, TRIGGER FACTOR, Cell Membrane, TERTIARY STRUCTURE, Membrane Transport Proteins, Biological Transport, MATURE LAMB PROTEIN, SUPPRESSOR MUTATIONS, Cell biology, Phenotype, MEMBRANE TRANSLOCATION, Biochemistry, Chaperone (protein), Mutation, PLASMA-MEMBRANE, biology.protein, bacteria, SELECTIVE BINDING, SEC Translocation Channels, Bacterial Outer Membrane Proteins, Protein Binding, Binding domain

Abstract

In Escherichia coli, precursor proteins are targeted to the membrane-bound translocase by the cytosolic chaperone SecB. SecB binds to the extreme carboxy-terminus of the SecA ATPase translocase subunit, and this interaction is promoted by preproteins. The mutant SecB proteins, L75Q and E77K, which interfere with preprotein translocation in vivo, are unable to stimulate in vitro translocation. Both mutants bind proOmpA but fail to support the SecA-dependent membrane binding of proOmpA because of a marked reduction in their binding affinities for SecA. The stimulatory effect of preproteins on the interaction between SecB and SecA exclusively involves the signal sequence domain of the preprotein, as it can be mimicked by a synthetic signal peptide and is not observed with a mutant preprotein (delta8proOmpA) bearing a non-functional signal sequence. Delta8proOmpA is not translocated across wild-type membranes, but the translocation defect is suppressed in inner membrane vesicles derived from a prIA4 strain. SecB reduces the translocation of delta8proOmpA into these vesicles and almost completely prevents translocation when, in addition, the SecB binding site on SecA is removed. These data demonstrate that efficient targeting of preproteins by SecB requires both a functional signal sequence and a SecB binding domain on SecA. It is concluded that the SecB-SecA interaction is needed to dissociate the mature preprotein domain from SecB and that binding of the signal sequence domain to SecA is required to ensure efficient transfer of the preprotein to the translocase.

Published

1998

2. Binding of basement-membrane laminin by Escherichia coli.

Author

Valkonen, K. H., Veijola, J., Dagberg, B., and Uhlin, B. E.

Subjects

ESCHERICHIA coli, ESCHERICHIA, BASAL lamina, EPITHELIUM, MICROBIAL virulence, PLASMIDS

Abstract

An invasive Escherichia coli (EIEC) isolate was found to bind basement-membrane laminin in a saturable and time-dependent manner. Excess of unlabelled laminin inhibited the binding of the radioactively labelled protein. Non-invasive E. coli K-12 exhibited only low-level laminin binding but introduction of the virulence-associated plasmid from the EIEC isolate led to high-level binding. Expression of a receptor for laminin on the bacteria was therefore associated with the presence of the virulence plasmid. Scatchard plot analysis indicated approximately 1000 receptors per bacterial cell, and a Kd of high-affinity binding of 0.5 pM. A laminin-binding protein which correlated with the presence of the plasmid was isolated and characterized. Its sequence of the eight amino-terminal amino acids was identical to that of the LamB protein of E. coli, although the molecular mass of the two in sodium dodecyl sulphate/polyacrylamide gel (SDS--PAGE) appeared to be slightly different. Both proteins reacted in immunoblot assays with polyclonal antisera raised against either protein, and both proteins bound laminin. Southern-blot hybridization analysis established that both the EIEC strain and the K-12 strains with or without the virulence plasmid contained one lamB gene only, and no laminin-binding protein appeared when the virulence plasmid was introduced into bacteria deleted for the lamB gene. On the basis of these results we suggest that native LamB protein of E. coli or a modified variant of it serves as a major receptor for laminin binding and is present at an increased level in invasive E. coli containing the virulence plasmid. [ABSTRACT FROM AUTHOR]

Published

1991

3. In vivo andin vitro studies of transmembrane β-strand deletion, insertion or substitution mutants of theEscherichia coli K-12 maltoporin.

Author

Charbit, Alain, Andersen, Christian, Wang, Jiang, Schiffler, Bettina, Michel, Valérie, Benz, Roland, and Hofnung, Maurice

Subjects

BACTERIAL genetics, ESCHERICHIA coli, MEMBRANE proteins

Abstract

Lamb of Escherichia coli K12, also called maltoporin, is an outer membrane protein, which specifically facilitates the diffusion of maltose and maltodextrin through the bacterial outer membrane. Each monomer is composed of an 18-stranded antiparallel β-barrel. In the present work, on the basis of the known X-ray structure of LamB, the effects of modifications of the β-barrel domain of maltoporin were studied in vivo and in vitro. We show that: (i) the substitution of the pair of strands β13-β14 of the E. coli maltoporin with the corresponding pair of strands from the functionally related maltoporin of Salmonella typhimurium yielded a protein active in vivo and in vitro; and (ii) the removal of one pair of β-strands (deletion β13-β14) from the E. coli maltoporin, or its replacement by a pair of strands from the general porin OmpF of E. coli, leads to recombinant proteins that lost in vivo maltoporin activities but still kept channel formation and carbohydrate binding in vitro. We also inserted into deletion β13-β14 the portion of the E. coli Lamb protein comprising strands β13 to β16. This resulted in a protein expected to have 20 β-strands and which completely lost all LamB-specific activities in vivo and in vitro. [ABSTRACT FROM AUTHOR]

Published

2000

4. Genetic mapping of starch- and Lambda-receptor sites in maltoporin: identification of substitutions causing direct and indirect effects on binding sites by cysteine mutagenesis.

Author

Francis, G., Brennan, L., Stretton, S., and Ferenci, T.

Subjects

CYSTEINE proteinases, PROTEINS, LIGANDS (Biochemistry), COORDINATION compounds, ESCHERICHIA coli, ESCHERICHIA

Abstract

Cysteine mutagenesis was used to test the proximity of 16 residues to protein-ligand interaction sites in maitoporin (LamB protein). LamB protein with additional cysteines was incorporated into the outer membrane of Escherichia coli except with a Ser-30 → Cys substitution. Phage Lambda and starch binding was assayed before and after incubation of mutants with six thiol-specific reagents. Four categories of mutation were recognized on the basis of phenotype and modification for each of the Lambda- and starch binding sites. The thiol modification experiments helped to clarify whether the phenotype of a mutation was due to a substitution at the binding site or an indirect perturbation of the structure. This study suggests that the cysteine mutagenesis/thiol modification approach may be usefully applied to the operational mapping of surface-accessible binding sites or epitopes. [ABSTRACT FROM AUTHOR]

Published

1991

5. A small RNA downregulates LamB maltoporin in Salmonella.

Author

Bossi, Lionello and Figueroa-Bossi, Nara

Subjects

RNA, NUCLEIC acids, ESCHERICHIA coli, SALMONELLA, GENES

Abstract

In Escherichia coli and Salmonella enterica, activation of σE-dependent envelope stress response leads to the abrupt decline in the synthesis of all major outer membrane proteins (OMPs). Recent studies found that two σE-controlled small RNAs (sRNAs), MicA and RybB, downregulate a number of OMPs. While RybB targets several different mRNAs, including ompC and ompD, MicA was up to date thought to act solely on ompA. Here we present evidence showing that MicA downregulates a second Salmonella OMP: LamB maltoporine. In strains overexpressing σE, MicA accumulation leads to a significant decrease in LamB protein and mRNA levels, as well as a reduction in β-galactosidase activity in a strain carrying a lamB–lacZ translational fusion. The latter findings provided the basis for a genetic screen that allowed isolating point mutations in the micA gene and in its σE promoter. All alleles obtained displayed their altered regulatory phenotype from their natural chromosomal location. LamB downregulation by MicA requires a functional Hfq protein. Besides this role, confined to σE-activated conditions, we show that loss of Hfq results in the accumulation of a lamB-malM dimeric precursor and of malM mRNA during unchallenged growth. This suggests that Hfq normally intervenes in a mechanism that uncouples expression of the malK-lamB-malM operon, causing the distal portion of the transcript to be clipped off and degraded. [ABSTRACT FROM AUTHOR]

Published

2007

6. Two neglected but valuable genetic tools for Escherichia coli and other bacteria: In vivo cosmid packaging and inducible plasmid replication.

Author

Cronan, John E.

Subjects

PLASMIDS, ESCHERICHIA coli, CHEMICAL amplification, PACKAGING, BACTERIOPHAGE lambda, SYNTHETIC biology

Abstract

In physiology and synthetic biology, it can be advantageous to introduce a gene into a naive bacterial host under conditions in which all cells receive the gene and remain fully functional. This cannot be done by the usual chemical transformation and electroporation methods due to low efficiency and cell death, respectively. However, in vivo packaging of plasmids (called cosmids) that contain the 223 bp cos site of phage λ results in phage particles that contain concatemers of the cosmid that can be transduced into all cells of a culture. An historical shortcoming of in vivo packaging of cosmids was inefficient packaging and contamination of the particles containing cosmid DNA with a great excess of infectious λ phage. Manipulation of the packaging phage and the host has eliminated these shortcomings resulting in particles that contain only cosmid DNA. Plasmids have the drawback that they can be difficult to remove from cells. Plasmids with conditional replication provide a means to "cure" plasmids from cells. The prevalent conditional replication plasmids are temperature‐sensitive plasmids, which are cured at high growth temperature. However, inducible replication plasmids are in some cases more useful, especially since this approach has been applied to plasmids having diverse replication and compatibility properties. [ABSTRACT FROM AUTHOR]

Published

2023

7. LamB (maltoporin) of Salmonella typhimurium: isolation, purification and comparison of sugar binding with LamB of Escherichia coli.

Author

Sch&uum;lein, K. and Benz, R.

Subjects

SALMONELLA typhimurium, SALMONELLA, HYDROXYAPATITE, BILAYER lipid membranes, CATIONS

Abstract

LamB (maltoporin) of Salmonella typhimurium was found to be more strongly associated with the murein than OmpF. It was purified in one step using a hydroxyapatite (HTP) column. Reconstitution of the pure protein with lipid bilayer membrane showed that LamB of S. typhimurium formed small ion-permeable channels with a single channel conductance of about 90pS in 1M KCI and some preference for cations over anions. The conductance concentration curve was linear, which suggested that LamB of S. typhimurium does not contain any binding site for ions. Pore conductance was completely inhibited by the addition of 20 mM maltotriose. Titration of the LamB-induced membrane conductance with different sugars, including all members of the maltooligosaccharide series up to seven glucose residues, suggested that the channel contains, like LamB (maltoporin) of Escherichia coli, a binding site for sugars. The binding constant of sugars of the maltooligosaccharide series increased with increasing number of glucose residues up to five (saturated). Small sugars had a higher stability constant for sugar binding relative to LamB of E. coli. The advantage of a binding site inside a specific porin for the permeation of solutes is discussed with respect to the properties of a general diffusion porin. [ABSTRACT FROM AUTHOR]

Published

1990

8. Identification of a cryptic porin gene in the Escherichia co//genome: expression and insertion of a monomeric form of the protein into the outer membrane.

Author

Jiang Wang, Betton, Jean-Michel, Michel, Valérie, Hofnung, Maurice, and Charbit, Alain

Subjects

LETTERS to the editor, GENE expression

Abstract

A letter to the editor is presented on the expression and insertion of a monomeric form of protein into the outer membrane of the Escherichia coli genome.

Published

1997

9. Binding of basement-membrane laminin byEscherichia coli

Author

Björn Dagberg, K. H. Valkonen, Bernt Eric Uhlin, and J. Veijola

Subjects

Molecular Sequence Data, Gene Expression, Virulence, Biology, medicine.disease_cause, Microbiology, Basement Membrane, Receptors, Laminin, Plasmid, Laminin, Escherichia coli, medicine, Amino Acid Sequence, Receptors, Immunologic, Laminin binding, Molecular Biology, Peptide sequence, Polyacrylamide gel electrophoresis, Escherichia coli Infections, Binding protein, Molecular biology, Receptors, Antigen, Biochemistry, biology.protein, Bacterial Outer Membrane Proteins, Plasmids

Abstract

An invasive Escherichia coli (EIEC) isolate was found to bind basement-membrane laminin in a saturable and time-dependent manner. Excess of unlabelled laminin inhibited the binding of the radioactively labelled protein. Non-invasive E. coli K-12 exhibited only low-level laminin binding but introduction of the virulence-associated plasmid from the EIEC isolate led to high-level binding. Expression of a receptor for laminin on the bacteria was therefore associated with the presence of the virulence plasmid. Scatchard plot analysis indicated approximately 1000 receptors per bacterial cell, and a Kd of high-affinity binding of 0.5 pM. A laminin-binding protein which correlated with the presence of the plasmid was isolated and characterized. Its sequence of the eight amino-terminal amino acids was identical to that of the LamB protein of E. coli, although the molecular mass of the two in sodium dodecyl sulphate/polyacrylamide gel (SDS-PAGE) appeared to be slightly different. Both proteins reacted in immunoblot assays with polyclonal antisera raised against either protein, and both proteins bound laminin. Southern-blot hybridization analysis established that both the EIEC strain and the K-12 strains with or without the virulence plasmid contained one lamB gene only, and no laminin-binding protein appeared when the virulence plasmid was introduced into bacteria deleted for the lamB gene. On the basis of these results we suggest that native LamB protein of E. coli or a modified variant of it serves as a major receptor for laminin binding and is present at an increased level in invasive E. coli containing the virulence plasmid.

Published

1991

10. Genetic mapping of starch- and lambda-receptor sites in maltoporin: identification of substitutions causing direct and indirect effects on binding sites by cysteine mutagenesis

Author

L. Brennan, S. Stretton, G. Francis, and Thomas Ferenci

Subjects

Protein Conformation, Mutant, Maltoporin, Porins, medicine.disease_cause, Microbiology, Epitopes, medicine, Escherichia coli, Cysteine, Sulfhydryl Compounds, Binding site, Molecular Biology, Binding Sites, biology, Chromosome Mapping, Starch, Lambda phage, biology.organism_classification, Bacteriophage lambda, Biochemistry, Mutagenesis, Site-Directed, Receptors, Virus, Bacterial outer membrane, Starch binding, Bacterial Outer Membrane Proteins

Abstract

Summary Cysteine mutagenesis was used to test the proximity of 16 residues to protein-ligand interaction sites in maltoporin (LamB protein). LamB protein with additional cysteines was incorporated into the outer membrane of Escherichia coli except with a Ser-30→ Cys substitution. Phage Lambda and starch binding was assayed before and after incubation of mutants with six thiol-specific reagents. Four categories of mutation were recognized on the basis of phenotype and modification for each of the Lambda- and starch binding sites. The thiol modification experiments helped to clarify whether the phenotype of a mutation was due to a substitution at the binding site or an indirect perturbation of the structure. This study suggests that the cysteine mutagenesis/thiol modification approach may be usefully applied to the operational mapping of surface-accessible binding sites or epitopes.

Published

1991

11. The disulphide isomerase DsbC cooperates with the oxidase DsbA in a DsbD-independent manner.

Author

Vertommen, Didier, Depuydt, Matthieu, Pan, Jonathan, Leverrier, Pauline, Knoops, Laurent, Szikora, Jean-Pierre, Messens, Joris, Bardwell, James C. A., and Collet, Jean-Francois

Subjects

ESCHERICHIA coli, PROTEINS, QUINONE, ISOMERASES, CYSTEINE proteinases, MASS spectrometry

Abstract

In Escherichia coli, DsbA introduces disulphide bonds into secreted proteins. DsbA is recycled by DsbB, which generates disulphides from quinone reduction. DsbA is not known to have any proofreading activity and can form incorrect disulphides in proteins with multiple cysteines. These incorrect disulphides are thought to be corrected by a protein disulphide isomerase, DsbC, which is kept in the reduced and active configuration by DsbD. The DsbC/DsbD isomerization pathway is considered to be isolated from the DsbA/DsbB pathway. We show that the DsbC and DsbA pathways are more intimately connected than previously thought. dsbA- dsbC- mutants have a number of phenotypes not exhibited by either dsbA-, dsbC- or dsbA- dsbD- mutations: they exhibit an increased permeability of the outer membrane, are resistant to the lambdoid phage Φ80, and are unable to assemble the maltoporin LamB. Using differential two-dimensional liquid chromatographic tandem mass spectrometry/mass spectrometry analysis, we estimated the abundance of about 130 secreted proteins in various dsb- strains. dsbA- dsbC- mutants exhibit unique changes at the protein level that are not exhibited by dsbA- dsbD- mutants. Our data indicate that DsbC can assist DsbA in a DsbD-independent manner to oxidatively fold envelope proteins. The view that DsbC's function is limited to the disulphide isomerization pathway should therefore be reinterpreted. [ABSTRACT FROM AUTHOR]

Published

2008

12. Complex spatial distribution and dynamics of an abundant Escherichia coli outer membrane protein, LamB.

Author

Gibbs, Karine A., Isaac, Daniel D., Jun Xu, Hendrix, Roger W., Silhavy, Thomas J., and Theriot, Julie A.

Subjects

ESCHERICHIA coli, MEMBRANE proteins, GRAM-negative bacteria, MALTOSE, BACTERIOPHAGE lambda, DIFFUSION

Abstract

Advanced techniques for observing protein localization in live bacteria show that the distributions are dynamic. For technical reasons, most such techniques have not been applied to outer membrane proteins in Gram-negative bacteria. We have developed two novel live-cell imaging techniques to observe the surface distribution of LamB, an abundant integral outer membrane protein in Escherichia coli responsible for maltose uptake and for attachment of bacteriophage lambda. Using fluorescently labelled bacteriophage lambda tails, we quantitatively des-cribed the spatial distribution and dynamic movement of LamB in the outer membrane. LamB accumulated in spiral patterns. The distribution depended on cell length and changed rapidly. The majority of the protein diffused along spirals extending across the cell body. Tracking single particles, we found that there are two populations of LamB – one shows very restricted diffusion and the other shows greater mobility. The presence of two populations recalls the partitioning of eukaryotic membrane proteins between ‘mobile’ and ‘immobile’ populations. In this study, we have demonstrated that LamB moves along the bacterial surface and that these movements are restricted by an underlying dynamic spiral pattern. [ABSTRACT FROM AUTHOR]

Published

2004

13. Peptidoglycan hydrolytic activities associated with bacteriophage virions.

Author

Moak, Michael and Molineux, Ian J.

Subjects

PEPTIDOGLYCANS, HYDROLASES, BACTERIOPHAGES, ENZYMES, BACILLUS subtilis, BACTERIAL cell walls

Abstract

Murein hydrolases appear to be widespread in the virions of bacteriophages infecting Gram-positive or Gram-negative bacteria. Muralytic activity has been found in virions of the majority of a diverse collection of phages. Where known, the enzyme is either part of a large protein or found associated with other structural components of the virion that limit enzyme activity. In most cases, the lack of genetic and structural characterization of the phage precludes making a definitive identification of the enzymatic protein species. However, three proteins with muralytic activity have been unequivocally identified. T7gp16 is a 144 kDa internal head protein that is ejected into the cell at the initiation of infection; its enzyme activity is required only when the cell wall is more highly cross-linked. P22gp4 is part of the neck of the particle and is essential for infectivity. The activity associated with virions of Bacillus subtilis phage ø29 and its relatives lies in the terminal protein gp3. These studies lead to a general mechanism describing how phage genomes are transported across the bacterial cell wall. [ABSTRACT FROM AUTHOR]

Published

2004

14. Iron and contact with host cells induce expression of adhesins on surface of Trichomonas vaginalis.

Author

Garcia, Ana F., Chang, Te-Hung, Benchimol, Marlene, Klumpp, David Jichael, Lehker, Michael W., and Alderete, John F.

Subjects

CELL adhesion molecules, TRICHOMONAS vaginalis, CELL adhesion, IRON

Abstract

Summary The proteins AP65, AP51, AP33 and AP23 synthesized by Trichomonas vaginalis organisms in high iron play a role in adherence. Multigene families encode enzymes of the hydrogenosome organelles, which have identity to adhesins. This fact raises questions regarding the compartmentalization of the proteins outside the organelle and about the interactions of adhesins with host cells. Data here demonstrate the presence of the proteins outside the organelle under high-iron conditions. Fluorescence and immuno-cytochemical experiments show that high-iron-grown organisms coexpressed adhesins on the surface and intracellularly in contrast with low-iron parasites. Furthermore, the AP65 epitopes seen by rabbit anti-AP65 serum that blocks adherence and detects surface proteins were identified, and a mAb reacting to those epitopes recognized the trichomonal surface. Two-dimensional electrophoresis and immunoblot of adhesins from surface-labelled parasites provided evidence that all members of the multigene family were co-ordinately expressed and placed on the trichomonal surface. Similar two-dimensional analysis of proteins from purified hydrogenosomes obtained from iodinated trichomonads confirmed the specific surface labelling of proteins. Contact of trichomonads with vaginal epithelial cells increased the amount of surface-expressed adhesins. Moreover, we found a direct relationship between the levels of adherence and amount of adhesins bound to immortalized vaginal and ureter epithelial cells, further reinforcing specific associations. Finally, trichomonads of MR100, a drug-resistant isolate absent in hydrogenosome proteins and adhesins, were non-adherent. Overall, the results confirm an important role for iron and contact in the surface expression of adhesins of T. vaginalis organisms. [ABSTRACT FROM AUTHOR]

Published

2003

15. Identification of a genetic determinant responsible for host specificity in Streptococcus thermophilus bacteriophages.

Author

Duplessis, Martin and Moineau, Sylvain

Subjects

STREPTOCOCCUS thermophilus, BACTERIOPHAGES, GRAM-positive bacteria

Abstract

Phage–host interactions remain poorly understood in lactic acid bacteria and essentially in all Gram-positive bacteria. The aim of this study was to identify the phage genetic determinant (anti-receptor) involved in the recognition of Streptococcus thermophilus hosts. The complete genomic sequence of the lytic S. thermophilus phage DT1 was determined previously, and bioinformatic analysis indicated that orf18 might be the anti-receptor gene. The orf18 of six additional S. thermophilus phages was determined (DT2, DT4, MD1, MD2, MD4 and Q5) and compared with the orf18 of DT1. The deduced ORF18 was divided into three domains. The first domain, which contains the N-terminal part of the protein, was conserved in all seven phages. The second domain was detected in only two phages and flanked by a motif called collagen-like repeats. The second domain also contained a variable region (VR1). All seven phages had a third domain that consisted of the C-terminal section of the protein as well as another variable region (VR2). Chimeric DT1 phages were constructed by recombination; a portion of its orf18 was replaced by the corresponding section in orf18 of the phage MD4. All DT1 chimeric phages acquired the host range of phage MD4. Analysis of the orf18 in the chimeric phages revealed that host specificity in phages DT1 and MD4 resulted from VR2. This is the first report on the identification and characterization of a phage gene involved in the host recognition process of Gram-positive bacteria. [ABSTRACT FROM AUTHOR]

Published

2001

16. Both transmembrane domains of SecG contribute to signal sequence recognition by the Escherichia coli protein export machinery.

Author

Bost, Sandrine, Silva, Filo, Rudaz, Claude, and Belin, Dominique

Subjects

BACTERIAL proteins, ESCHERICHIA coli, PLASMINOGEN activators, CELLULAR signal transduction

Abstract

A chimeric protein containing the uncleaved signal sequence of plasminogen activators inhibitor-2 (PAI2) fused to alkaline phosphatase (AP) interferes with Escherichia coli protein export and arrests growth. Suppressors of this toxicity include secG mutations that define the Thr-41–Leu-42–Phe-43 (TLF) domain of SecG. These mutations slow down the export of PAI2-AP. Another construct encoding a truncated PAI2 signal sequence (hB-AP) is also toxic. Most suppressors exert their effect on both chimeric proteins. We describe here five secG suppressors that only suppress the toxicity of hB-AP and selectively slow down its export. These mutations do not alter the TLF domain: three encode truncated SecG, whereas two introduce Arg residues in the transmembrane domains of SecG. The shortest truncated protein only contains 13 residues of SecG, suggesting that the mutation is equivalent to a null allele. Indeed, a secG disruption selectively suppresses the toxicity of hB-AP. However, the missense mutations are not null alleles. They allow SecG binding to SecYE, although with reduced affinity. Furthermore, these mutated SecG are functional, as they facilitate the export of endogenous proteins. Thus, SecG participates in signal sequence recognition, and both transmembrane domains of SecG contribute to ensure normal signal sequence recognition by the translocase. [ABSTRACT FROM AUTHOR]

Published

2000

17. In vivo andin vitro studies of major surface loop deletion mutants of theEscherichia coli K-12 maltoporin: contribution to maltose and maltooligosaccharide transport and binding.

Author

Andersen, Christian, Bachmeyer, Christoph, Täuber, Harald, Benz, Roland, Wang, Jiang, Michel, Valérie, Newton, Salete M. C., Hofnung, Maurice, and Charbit, Alain

Subjects

PROTEINS, ESCHERICHIA coli, DIFFUSION

Abstract

The trimeric protein LamB of Escherichia coli K-12 (maltoporin) specifically facilitates the diffusion of maltose and maltooligosaccharides through the outer membrane. Each monomer consists of an 18-stranded antiparallel β-barrel with nine surface loops (L1 to L9). The effects on transport and binding of the deletion of some of the surface loops or of combinations of several of them were studied in vivo and in vitro. In vivo, single-, ΔL4, ΔL5, ΔL6, and double-loop deletions, ΔL4 + ΔL5 and ΔL5 + ΔL6, abolished maltoporin functions, but not the double deletion ΔL4 + ΔL6 and the triple deletion ΔL4 + ΔL5 + ΔL6. While deletion of the central variable portion of loop L9 (ΔL9v) affected maltoporin function only moderately, the combination of ΔL9v with the double deletion of loops L4 and L6 (triple deletion ΔL4 + ΔL6 + ΔL9v) strongly impaired maltoporin function and resulted in sensitivity to large hydrophilic antibiotics without change in channel size as measured in vitro. In vitro, the carbohydrate-binding properties of the different loop mutants were studied in titration experiments using the asymmetric and symmetric addition of the mutant porins and of the carbohydrates to one or both sides of the lipid bilayer membranes. The deletion of loop L9v alone (LamBΔL9v), of two loops L4 and L6 (LamBΔL4 + ΔL6), of three loops L4, L5 and L6 (LamBΔL4 + ΔL5 + ΔL6) or of L4, L6 and L9v (LamBΔL4 + ΔL6 + ΔL9v) had relatively little influence on the carbohydrate-binding properties of the mutant channels, and they had approximately similar binding properties for carbohydrate addition to both sides compared with only one side. The deletion of one of the loops L4 (LamBΔL4) or L6 (LamBΔL6) resulted in an asymmetric carbohydrate binding. The in vivo and in vitro results, together with those of the purification across the starch column,... [ABSTRACT FROM AUTHOR]

Published

1999

18. The gene bglH present in thebgl operon ofEscherichia coli, responsible for uptake and fermentation of β-glucosides encodes for a carbohydrate-specific outer membrane porin.

Author

Andersen, Christian, Rak, Bodo, and Benz, Roland

Subjects

BACTERIAL genetics, ESCHERICHIA coli, GENETIC vectors, BILAYER lipid membranes

Abstract

The cryptic gene bglH from the Escherichia coli chromosome was cloned into a tacOP-driven expression vector. The resulting plasmid was transferred into the porin-deficient E. coli strain KS26 and the protein was expressed by addition of IPTG. The BglH protein was localized in the outer membrane. It was purified to homogeneity using standard methods. Reconstitution experiments with lipid bilayer membranes defined BglH as a channel-forming component, i.e. it is an outer membrane porin. The single-channel conductance of BglH (560 pS in 1 M KCl) was only one-third of that of the general diffusion porins of E. coli outer membrane. The presence of carbohydrates in the aqueous phase led to a dose-dependent block of ion transport through the channel, similar to that found for LamB (maltoporin) of E. coli and Salmonella typhimurium, which means that BglH is a porin specific for the uptake of carbohydrates. The binding constants of a variety of different carbohydrates were calculated from titration experiments of the BglH-induced membrane conductance. The tightest binding was observed with the aromatic β-D-glucosides arbutin and salicin, and with gentibiose and cellobiose. Binding of maltooligosaccharides to BglH was in contrast to their binding to LamB in that it was much weaker, indicating that the binding site of BglH for carbohydrates is different from that of LamB (maltoporin). The kinetics of cellopentaose binding to BglH was investigated using the carbohydrate-induced current noise and was compared with that of cellopentaose binding to LamB (maltoporin) and ScrY (sucroseporin). [ABSTRACT FROM AUTHOR]

Published

1999

19. In vivo and in vitro studies of transmembrane β-strand deletion, insertion or substitution mutants of the Escherichia coli K-12 maltoporin

Author

Charbit, Alain, Andersen, Christian, Wang, Jiang, Schiffler, Bettina, Michel, Valérie, Benz, Roland, and Hofnung, Maurice

Published

2000

20. Production, cellular localization, trimers formation and functional characteristics of Orf538 and Orf414.

Author

Jiang Wang, Betton, Jean-Michel, Michel, Valérie, Hofnung, Maurice, and Charbit, Alain

Subjects

LETTERS to the editor, DNA

Abstract

A letter to the editor is presented on the production, cellular localization, trimers formation and functional characteristics of Orf538 and Orf414 DNA fragments.

Published

1997

21. New components of protein folding in extracytoplasmic compartments of Escherichia coli SurA, FkpA and Skp/OmpH.

Author

Missiakas, Dominique, Betton, Jean-Michel, and Raina, Satish

Subjects

CYTOPLASM, ESCHERICHIA coli, PROTEINS, CLONE cells, GENETIC mutation

Abstract

A global search for extracytoplasmic folding catalysts in Escherichia coli was undertaken using different genetic systems that produce unstable or misfolded proteins in the periplasm. The extent of misfolding was monitored by the Increased activity of the σE regulon that is specifically induced by misfolded proteins in the periplasm. Using multicopy libraries, we cloned two genes, surA and fkpA, that decreased the σE dependent response constitutively induced by misfolded proteins. According to their sequences and their biochemical activities, SurA and FkpA belong to two different peptidyl prolyl isomerase (PPI) families. Interestingly, surA was also selected as a multicopy suppressor of a defined htrM (rfaD) null mutation. Such mutants produce a defective lipopolysaccharide that is unable to protect outer membrane proteins from degradation during folding. The SurA multicopy suppression effect in htrM (rfaD) mutant bacteria was directly associated with its ability to catalyse the folding of outer membrane proteins immediately after export. Finally, Tn10 insertions were isolated, which led to an increased activity of the σE regulon. Such insertions were mapped to the dsb genes encoding catalysts of the protein disulphide isomerase (PDI) family, as well as to the surA, fkpA and ompH/skp genes. We propose that these three proteins (SurA, FkpA and OmpH/Skp) play an active role either as folding catalysts or as chaperones in extracytoplasmic compartments. [ABSTRACT FROM AUTHOR]

Published

1996

22. Examination of AsmA and its effect on the assembly of Escherichia coli outer membrane proteins.

Author

Ming Deng and Misra, Rajeev

Subjects

GENETIC mutation, PROTEINS, WESTERN immunoblotting, MEMBRANE proteins, ENDOTOXINS, PHOSPHOLIPIDS, ORIGIN of life

Abstract

asmA mutations were isolated as extragenic suppressors of an OmpF assembly mutant, OmpF315. This suppressor locus produced a protein that was present in extremely low levels and could only be visualized by Western blotting in cells where AsmA expression was induced from a plasmid. Detailed fractionation analyses showed that AsmA localized with the inner membrane. Curiously, however, the mutant OmpF assembly step influenced by AsmA occurred in the outer membrane, perhaps indicating an indirect involvement of AsmA in the assembly of outer membrane proteins. Biochemical examination of the outer membrane showed that asmA null mutations reduce lipopolysaccharide (LPS) levels, thereby lowering the ratios of glycerolphospholipids to LPS and envelope proteins to LPS in the outer membrane. Despite these quantitative alterations, no apparent structural changes in LPS or major phospholipids were noted. Reduced LPS levels in asmA mutants indicate a possible role of AsmA in LPS biogenesis. Data presented in this study suggest that asmA-mediated OmpF assembly suppression may have been achieved by altering the outer membrane fluidity, thus making it more amenable for the assembly of mutant proteins. [ABSTRACT FROM AUTHOR]

Published

1996

23. A periplasmic protein (Skp) of Escherichia coli selectively binds a class of outer membrane proteins.

Author

Chen, Robert and Henning, Ulf

Subjects

MOLECULAR chaperones, MEMBRANE proteins, ESCHERICHIA coli, GENE libraries, RECOMBINANT DNA, GENETIC mutation

Abstract

A search was performed for a periplasmic molecular chaperone which may assist outer membrane proteins of Escherichia coli on their way from the cytoplasmic to the outer membrane. Proteins of the periplasmic space were fractionated on an affinity column with sepharose-bound outer membrane porin OmpF. A 17 kDa polypeptide was the predominant protein retained by this column. The corresponding gene was found in a gene bank; it encodes the periplasmic protein Skp. The protein was isolated and it could be demonstrated that it bound outer membrane proteins, following SDS-PAGE, with high selectivity. Among these were OmpA, OmpC, OmpF and the maltoporin LamB. The chromosomal skp gene was inactivated by a deletion causing removal of most of the signal peptide plus 107 residues of the 141-residue mature protein. The mutant was viable but possessed much-reduced concentrations of outer membrane proteins. This defect was fully restored by a plasmid-borne skp gene which may serve as a periplasmic chaperone. [ABSTRACT FROM AUTHOR]

Published

1996

24. The deletion of 70 amino acids near the N-terminal end of the sucrose-specific porin ScrY causes its functional similarity to LamB in vivo and in vitro.

Author

Schülein, Katrin, Andersen, Christian, and Benz, Roland

Subjects

AMINO acids, ESCHERICHIA coli, SUCROSE, ORGANIC acids, ENTEROBACTERIACEAE, CATIONS, ORGANIC compounds, GLUTAMINE

Abstract

A deletion mutant ScrY Δ3-73 of the sucrose-specific porin ScrY was constructed in which 70 amino acids of the mature protein were deleted near the N-terminal end. ScrY Δ3-72 was still able to oligomerize and inserted properly into the outer membrane of an Escherichia coli strain. The protein was isolated and purified by standard procedures. The mutant protein showed, in contrast to wild-type ScrY, a tight association with the murein. Reconstitution experiments with artificial lipid bilayer membranes demonstrated that ScrY Δ3-72 produced defined, cation-selective channels in planar lipid bilayers. Its single-channel conductance was reduced to about half of the value of wild-type ScrY. The deletion had a relatively small influence on the stability constants for carbohydrate binding. However, in contrast to wild-type ScrY, [14C]-maltopentaose was efficiently taken up into whole E. coli cells containing ScrY Δ3-72. The sequence of the N-terminus of mature ScrY was identified as starting with glutamine 23. The possible structure of ScrY and ScrY Δ3-72 in the outer membrane is discussed. [ABSTRACT FROM AUTHOR]

Published

1995

25. Differential expression of mal genes under cAMP endogenous inducer control in nutrient-stressed Escherichia coli.

Author

Notley, Lucinda and Ferenci, Thomas

Subjects

GENE expression, ESCHERICHIA coli, GENETIC regulation, ENZYME induction, GLUCOSE

Abstract

LamB glycoporin has an important general role in carbohydrate uptake during growth at low extracellular sugar concentrations. lamB and mal regulon induction during glucose starvation and glucose-limited continuous culture was investigated using lacZ fusions. A low-level burst of lamB induction occurred upon entry into glucose starvation-induced stationary phase but returned to basal levels during continued nutrient deprivation. Glucose-limited continuous culture elicited much higher expression of transporter genes in the mal regulon, as well as [14C]-maltose-transport activity; malEFG and malKlamB operons in glucose-limited chemostats were expressed to close to half of the level of maltose-induced batch cultures. Limitation-induced expression was dependent on both Crp-cAMP and MaIT activation but was independent of RpoS function. As expected for a gene with a Crp-controiled promoter, maIT expression was maximal under conditions which elicited the highest cAMP levels, but lamB induction did not behave in a corresponding fashion. Rather, maximal lamB induction occurred at rapid but suboptimal growth rates with micromolar or submicromolar medium glucose. Maximal transport and lamB induction coincided with increased endogenous maltotriose (inducer) concentrations during growth on glucose. Hence regulation of glycoporin and the maltose-transport system is not a starvation- or stationary-phase response but facilitates the adaptation of Escherichia coli to low-nutrient environments through endoinduction. [ABSTRACT FROM AUTHOR]

Published

1995

26. The ompS gene of Vibrio cholerae encodes a growth- phase-dependent maltoporin.

Author

Lång, Hannu and Palva, E. Tapio

Subjects

VIBRIO cholerae, CELL membranes, MALTOSE, PROTEINS, NUCLEOTIDE sequence, AMINO acid sequence, GENE expression, GENES

Abstract

The outer membrane of Vibrio cholerae contains a maltose-inducible major protein, OmpS (43 kDa), that is common to different isolates. Nucleotide sequence analysis of the corresponding structural gene, ompS, revealed an open reading frame encoding a 412-amino-acid polypeptide. The amino acid sequence of OmpS is similar to that of LamB, the Escherichia coli maltoporin, and to ScrY of Kiebsiella pneumoniae, although the antigenic determinants of these proteins are different. The cloned ompS gene complemented an ompS mutation of V. cholerae and the corresponding polypeptide could function as a maltoporin in a LamB- mutant of E. coli The promoter region of ompS is highly homologous to the malK-lamB promoter of E. coli and the ompS gene is controlled by MalT in E. coli This indicates that the same kind of regulatory mechanism is used to activate the ompS expression in V. cholerae and malK-lamB expression in E. coli An ompS-lacZ transcriptional fusion was used to demonstrate a dual control in ompS expression; the ompS gene is responsive to the inducers maltose and trehalose but in their absence it is also expressed in response to growth-phase. These different modes of induction might be of importance during different stages of V. cholerae infection. [ABSTRACT FROM AUTHOR]

Published

1993

27. A novel ompC mutation of Escherichia coli K-12 that reduces OmpC and OmpF levels in the outer membrane.

Author

Misra, Rajeev

Subjects

GENETIC mutation, CYSTEINE proteinases, GENETIC transcription, CELL membranes, SULFIDES

Abstract

A novel ompC mutation was isolated that not only lowered the amount of its own product, OmpC27, but also reduced the level of OmpF present in the outer membrane, ompC27 codes for a mutant OmpC protein that contains two non-native cysteine residues. The ompC27 allele confers phage resistance by lowering the level of OmpC present in the outer membrane. This effect on OmpC27 was manifested at the level of assembly as a result of disulphide bond formation between the two cysteine residues. This disulphide bonding in OmpC27 also produced a novel phenotype by specifically influencing OmpF bevels. The effect of OmpC27 on OmpF was partly a result of a lowering of ompF transcription, and partly a result of an effect at the post-transcription lever. The transcriptional effect is likely to be brought about by a defective membrane as a result of the insertion of the disulphide bond containing OmpC27. The post-transcriptional effect of OmpC27 on OmpF could be due to inferrerence at the assembly level. In a dsbA::kan1 background where the in vivo disulphide bonding ability was dramatically reduced, the OmpC27-mediated effects were also curtailed. [ABSTRACT FROM AUTHOR]

Published

1993

28. Expression of meningococcal epitopes in LamB of Escherichia coli and the stimulation of serosubtype- specific antibody responses.

Author

McCarvil, J., McKenna, A. J., Grief, C., Hoy, C. S., Sesardic, D., Maiden, M. C. J., and Feavers, I. M.

Subjects

NEISSERIA meningitidis, MEMBRANE proteins, CELL surface antigens, NUCLEOTIDE sequence, MONOCLONAL antibodies, ANTIGENS, VACCINES

Abstract

The class 1 outer membrane protein (OMP), a major variable surface antigen of Neisseria meningitidis, is a component of novel meningococcal vaccines currently in field trials. Serological variants of the protein are also used to serosubtype meningococci. Most of the amino acid changes that give rise to antigenic variants of the protein occur in two variable regions (VR1 and VR2) that are thought to form loops on the cell surface. The polymerase chain reaction (PCR) was used to amplify the nucleotide sequences encoding VR1 and VR2 from the chromosomal DNA of N. meningitidis strain M1080. These were cloned in frame into the lamB gene of the Escherichia coli expression vector pAJC264. Whole-cell enzyme-linked immunosorbent assays (ELISAs), using monoclonal antibodies, and SDS--PAGE confirmed that, upon induction, strains of E. coli carrying these constructs expressed hybrid LamB proteins containing the N. meningitidis surface loops. These strains were used to immunize rabbits and the resultant polyclonal antisera reacted specifically with the class 1 OMP of reference strain M1080 (P1.7). Immunogold labelling of meningococcal cells and whole-cell clot-blot analyses with these antisera showed that the variable epitopes were exposed on the cell surface and confirmed that this approach could be used to obtain serosubtype-specific antisera. The binding profiles of the antisera were determined from their reactions with overlapping synthetic peptides and their reactivity compared with that of relevant serosubtype-specific monoclonal antibodies. This approach was used successfully to raise antisera against two other class 1 OMP VR2s. A fourth antiserum raised against a VR2, including the P1.1 epitope, was not subtype specific. [ABSTRACT FROM AUTHOR]

Published

1993

29. Keyword Index.

Published

1991

30. The sugar-specific outer membrane channel ScrY contains functional characteristics of general diffusion pores and substrate-specific porins.

Author

Schülein, K., Schmid, K., and Benzl, R.

Subjects

ESCHERICHIA coli, ESCHERICHIA, PLASMIDS, CYTOPLASMIC inheritance, MEMBRANE proteins, GEL permeation chromatography

Abstract

Escherichia coli K-12 strain PS1-28-37 carries the multicopy plasmid pPSO28-37 containing a DNA fragment coding for two of the proteins that enable bacteria to utilize sucrose as sole carbon source. One of the different gene products of the plasmid is the outer membrane protein, ScrY. This protein was isolated and purified by chromatography across a gel filtration column. Reconstitution experiments with lipid bilayer membrane demonstrated that ScrY formed ion-permeable channels with properties very similar to those of general diffusion pores of enteric bacteria. The presence of sugars in the aqueous phase led to a dose-dependent block of ion transport through the channel, like the situation found with LamB (maltoporin) of Escherichia coli and Salmonella typhimurium. The binding constants of a variety of different sugars were determined. The stability constant for malto-oligosaccharide binding increased with increasing numbers of glucose residues. Disaccharides generally had a larger binding constant than monosaccharides. The binding of different sugars to ScrY and LamB of E. coli is discussed with respect to the kinetics of sugar movement through the channel. [ABSTRACT FROM AUTHOR]

Published

1991

31. The tol gene products and the import of macromolecules into Escherichia coli.

Author

Webster, R. E.

Subjects

GENETICS, ESCHERICHIA coli, DNA, BACTERIOPHAGES, MACROMOLECULES, PROTEINS

Abstract

Genetic studies have identified a number of genes whose products appear to be required for the transport of the group A colicins and the single-stranded DNA of certain filamentous bacteriophages into Escherichia coli. Mutations in these genes allow normal binding of the colicins to their outer-membrane receptors and of the bacteriophage to the tip of specific conjugative pili, but do not allow translocation of the macromolecules to their target. These mutations have been designed 'tolerant' (tol) mutations and the protein products specified by these genes appear to comprise part of a transport system known as the Tol import system. Some of these genes have been isolated, sequenced and their protein products localized to the membranes or periplasm of E. coli. Information is also available regarding the domains of the colicins or phage proteins which interact with the Tol proteins. A preliminary model of the location and possible interactions of the Tol proteins is presented. [ABSTRACT FROM AUTHOR]

Published

1991

32. Vitamin B12 transport in <em>Escherichia coli</em>: energy coupling between membranes.

Author

Kadner, R. J.

Subjects

ESCHERICHIA coli, CELLS, MEMBRANE proteins, MUTAGENESIS, SUPPRESSOR cells

Abstract

Cells of Escherichia coli possess high-affinity active transport systems of vitamin B12 and iron-siderophore complexes. Specific outer-membrane proteins carry out the energy-dependent transport across the outer membrane, in conjunction with the TonB coupling protein. Mutagenesis experiments have identified a conserved region near the amino-terminus of the outer-membrane transporters that is necessary for energy-coupled transport. The ability of extragenic suppressor mutations in tonB to correct the transport defect indicates that TonB couples the proton-motive force to the outer-membrane proteins by direct contact. [ABSTRACT FROM AUTHOR]

Published

1990

33. The TraT lipoprotein as a vehicle for the transport of foreign antigenic determinants to the cell surface of <em>Escherichia coli</em> K12: structure-function relationships in the TraT protein.

Author

Taylor, I. M., Harrison, J. L., Timmis, K. N., and O'Connor, C. D.

Subjects

PROTEINS, LIPOPROTEINS, LIPIDS, PLASMIDS, CYTOPLASMIC inheritance

Abstract

The TraT protein is a surface-exposed lipoprotein, specified by plasmids of the IncF group, that mediates serum resistance and surface exclusion. The structure and function of the TraT protein determined by plasmid R6-5 was probed by genetic insertion of a foreign antigenic determinant, the C3 epitope of polio virus, at residues 61, 125, 180, 200 or 216 of the protein. The chimaeric proteins were transported to the outer membrane and, in three cases, immunoassays with an anti-C3 monoclonal antibody indicated that the C3 epitope was exposed on the cell surface. Three of the hybrids, with insertions at residues 125, 180 and 200, assembled into the trypsin-resistant oligomeric form characteristic of the wild-type protein, which suggested that these regions are not involved in TraT subunit:subunit interactions. Additionally, the hybrid protein carrying the C3 epitope at position 180 functioned in a genetic suppression assay and retained partial surface-exclusion activity. Thus, its localization, folding and organization does not appear to be grossly altered from that of the wild-type protein. Applications of the protein for the transport of foreign antigenic determinants to the cell surface are discussed. [ABSTRACT FROM AUTHOR]

Published

1990

34. Nucleotide sequence of the ugp genes of Escherichia coli K-12: homoiogy to the maltose system.

Author

Overduin, P., Boos, W., and Tommassen, J.

Subjects

ESCHERICHIA coli, NUCLEOTIDE sequence, GENES, HOMOLOGY (Biology), MALTOSE, PROMOTERS (Genetics), NUCLEIC acid analysis, BACTERIAL genetics

Abstract

The nucleotide sequence of the ugp genes of Escherichia coli K-12, which encode a phosphate-limitation inducible uptake system for sn-glycerol-3-phosphate and glycerophosphoryl diesters, was determined. The genetic organization of the operon differed from previously published results. A single promoter, containing a putative pho box, was detected by S1-nuclease mapping. The promoter is followed by four open reading frames, designated ugpB, A, E and C, which encode a periplasmic binding protein, two hydrophobic membrane proteins and a protein that is likely to couple energy to the transport system, respectively. The sequences of the proteins contain the characteristics of several other binding protein-dependent transport systems, but they seem to be particularly closely related to the maltose system. [ABSTRACT FROM AUTHOR]

Published

1988

35. The expression of Pseudomonas aeruginosa PAK pilin gene mutants in Escherichia coli.

Author

Pasloske, B. L., Carpenter, M. R., Frost, L. S., Finlay, B. B., and W. Paranchych

Subjects

GENE expression, CLONING, PSEUDOMONAS aeruginosa, ESCHERICHIA coli, PSEUDOMONAS, ESCHERICHIA

Abstract

Previous work has demonstrated the expression of the cloned pilin gene of Pseudomonas aeruginosa PAK within Escherichia coli and has pinpointed this protein's localization exclusively to the cytoplasmic membrane (Finlay et al., 1986). To define regions of the pilin subunit necessary for its stability and transport within E. coli, we constructed six mutants of the pilin gene and studied their expression and localization using a T7 promoter system. Two of the mutants have either a 4- or 8-amino-acid deletion at the N-terminus and both were stably expressed and transported primarily to the cytoplasmic membrane of E. coli. The other four mutants are C-terminal truncations having between 36 and 56 amino acids of the N-terminal region of the unprocessed pilin. Studies with these truncated mutants revealed that only the first 36 residues of the unprocessed pilin subunit were required for insertion into the E. coli membrane. [ABSTRACT FROM AUTHOR]

Published

1988

36. A gene fusion approach to the study of pullulanase export and secretion in Escherichia coli.

Author

d'Enfert, C. and Pugsley, A. P.

Subjects

KLEBSIELLA pneumoniae, ALKALINE phosphatase, GENETIC mutation, GENE fusion, MICROBIAL genetics, PHYSICAL & theoretical chemistry

Abstract

A series of fusions between the gene for the Klebsiella pneumoniae secreted lipoprotein pullulanase (pulA) and the genes for cytoplasmic β-galactosidase (lacZ) or periplasmic alkaline phosphatase (phoA) were created by transposon mutagenesis using mini-MudII1681 or TnphoA, respectively. The hybrid genes were expressed in Escherichia coli K-12 with or without the K. pneumoniae genes that promote pullulanase secretion in E. coli. We characterized seven different pulA-lacZ gene fusions encoding hybrid polypeptides containing from 14 to c. 1060 residues of pro-pullulanase. All but the smallest hybrid were fatty acylated and were toxic to producing cells, causing the accumulation of precursors of other exported proteins. Four different pulA-phoA gene fusions encoded hybrids with alkaline phosphatase activity. All four hybrids were fatty acylated, but were not toxic. Although the hybrids were apparently membrane-associated, they were not secreted into the medium either by E. coli carrying pullulanase secretion genes or by K. pneumoniae. Immunofluorescence tests indicated that the pullulanase secretion genes promoted the localization of one of these hybrids to the outer face of the E. coli outer membrane, which may have important implications for the design of live vaccine strains and of immobilized enzymes. [ABSTRACT FROM AUTHOR]

Published

1987

37. Does the initiation mass for DNA replication in Escherichia coli vary with growth rate?

Author

Cooper, Stephen

Subjects

LETTERS to the editor, DNA replication

Abstract

A letter to the editor is presented on the correlation between the mass and growth rate of DNA replication in Escherichia coli.

Published

1997

38. The HtrA family of serine proteases.

Author

Pallen, Mark J. and Wren, Brendan W.

Subjects

PROTEOLYTIC enzymes, ESCHERICHIA coli, SERINE proteinases, SALMONELLA, BRUCELLA, YERSINIA, MICROBIAL mutation

Abstract

HtrA, also known as DegP and probably identical to the Do protease, is a heat shock-induced serine protease that is active in the periplasm of Escherichia coli. Homologues of HtrA have been described in a wide range of bacteria and in eukaryotes. Its chief role is to degrade misfolded proteins in the periplasm. Substrate recognition probably involves the recently described PDZ domains in the C-terminal half of HtrA and, we suspect, has much in common with the substrate recognition system of the tail-specific protease, Prc (which also possesses a PDZ domain). The expression of htrA is regulated by a complex set of signal transduction pathways, which includes an alternative Sigma factor, RpoE, an anti-sigma factor, RseA, a two-component regulatory system, CpxRA, and two phosphoprotein phosphatases, PrpA and PrpB. Mutations in the htrA genes of Salmonella, Brucella and Yersinia cause decreased survival in mice and/or macrophages, and htrA mutants can act as vaccines, as cloning hosts and as carriers of heterologous antigens. [ABSTRACT FROM AUTHOR]

Published

1997

39. A small RNA downregulates LamB maltoporin in Salmonella

Author

Nara Figueroa-Bossi and Lionello Bossi

Subjects

Hfq protein, Regulation of gene expression, 0303 health sciences, Virus genetics, 030306 microbiology, Operon, RNA, Maltoporin, Biology, biology.organism_classification, Microbiology, Molecular biology, stomatognathic diseases, 03 medical and health sciences, Salmonella enterica, biology.protein, bacteria, Bacterial outer membrane, Molecular Biology, 030304 developmental biology

Abstract

In Escherichia coli and Salmonella enterica, activation of sigma(E)-dependent envelope stress response leads to the abrupt decline in the synthesis of all major outer membrane proteins (OMPs). Recent studies found that two sigma(E)-controlled small RNAs (sRNAs), MicA and RybB, downregulate a number of OMPs. While RybB targets several different mRNAs, including ompC and ompD, MicA was up to date thought to act solely on ompA. Here we present evidence showing that MicA downregulates a second Salmonella OMP: LamB maltoporine. In strains overexpressing sigma(E), MicA accumulation leads to a significant decrease in LamB protein and mRNA levels, as well as a reduction in beta-galactosidase activity in a strain carrying a lamB-lacZ translational fusion. The latter findings provided the basis for a genetic screen that allowed isolating point mutations in the micA gene and in its sigma(E) promoter. All alleles obtained displayed their altered regulatory phenotype from their natural chromosomal location. LamB downregulation by MicA requires a functional Hfq protein. Besides this role, confined to sigma(E)-activated conditions, we show that loss of Hfq results in the accumulation of a lamB-malM dimeric precursor and of malM mRNA during unchallenged growth. This suggests that Hfq normally intervenes in a mechanism that uncouples expression of the malK-lamB-malM operon, causing the distal portion of the transcript to be clipped off and degraded.

Published

2007

40. In vivo and in vitro studies of transmembrane beta-strand deletion, insertion or substitution mutants of the Escherichia coli K-12 maltoporin

Author

Jiang Wang, Alain Charbit, Bettina Schiffler, Christian Andersen, Roland Benz, Maurice Hofnung, and Valérie Michel

Subjects

Salmonella typhimurium, Protein Folding, Virus genetics, Recombinant Fusion Proteins, Lipid Bilayers, Molecular Sequence Data, Oligosaccharides, Porins, Maltoporin, Enzyme-Linked Immunosorbent Assay, Biology, medicine.disease_cause, Microbiology, Ion Channels, Escherichia coli, medicine, Amino Acid Sequence, Maltose, Molecular Biology, Peptide sequence, Sequence Deletion, Transmembrane protein, Kinetics, Mutagenesis, Insertional, Amino Acid Substitution, Biochemistry, Mutation, Porin, Mutagenesis, Site-Directed, Carbohydrate Metabolism, Receptors, Virus, Protein folding, Bacterial outer membrane, Trisaccharides, Bacterial Outer Membrane Proteins, Protein Binding

Abstract

LamB of Escherichia coli K12, also called maltoporin, is an outer membrane protein, which specifically facilitates the diffusion of maltose and maltodextrin through the bacterial outer membrane. Each monomer is composed of an 18-stranded antiparallel beta-barrel. In the present work, on the basis of the known X-ray structure of LamB, the effects of modifications of the beta-barrel domain of maltoporin were studied in vivo and in vitro. We show that: (i) the substitution of the pair of strands beta13-beta14 of the E. coli maltoporin with the corresponding pair of strands from the functionally related maltoporin of Salmonella typhimurium yielded a protein active in vivo and in vitro; and (ii) the removal of one pair of beta-strands (deletion beta13-beta14) from the E. coli maltoporin, or its replacement by a pair of strands from the general porin OmpF of E. coli, leads to recombinant proteins that lost in vivo maltoporin activities but still kept channel formation and carbohydrate binding in vitro. We also inserted into deletion beta13-beta14 the portion of the E. coli LamB protein comprising strands beta13 to beta16. This resulted in a protein expected to have 20 beta-strands and which completely lost all LamB-specific activities in vivo and in vitro.

Published

2000

41. In vivo and in vitro studies of transmembrane beta-strand deletion, insertion or substitution mutants of the Escherichia coli K-12 maltoporin.

Author

Charbit A, Andersen C, Wang J, Schiffler B, Michel V, Benz R, and Hofnung M

Subjects

Amino Acid Sequence, Amino Acid Substitution, Bacterial Outer Membrane Proteins chemistry, Bacterial Outer Membrane Proteins metabolism, Carbohydrate Metabolism, Enzyme-Linked Immunosorbent Assay, Escherichia coli metabolism, Ion Channels metabolism, Kinetics, Lipid Bilayers metabolism, Maltose metabolism, Molecular Sequence Data, Mutagenesis, Insertional, Mutagenesis, Site-Directed, Mutation, Oligosaccharides metabolism, Porins, Protein Binding, Protein Folding, Receptors, Virus chemistry, Receptors, Virus metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins immunology, Salmonella typhimurium genetics, Sequence Deletion, Trisaccharides metabolism, Bacterial Outer Membrane Proteins genetics, Escherichia coli genetics, Receptors, Virus genetics

Abstract

LamB of Escherichia coli K12, also called maltoporin, is an outer membrane protein, which specifically facilitates the diffusion of maltose and maltodextrin through the bacterial outer membrane. Each monomer is composed of an 18-stranded antiparallel beta-barrel. In the present work, on the basis of the known X-ray structure of LamB, the effects of modifications of the beta-barrel domain of maltoporin were studied in vivo and in vitro. We show that: (i) the substitution of the pair of strands beta13-beta14 of the E. coli maltoporin with the corresponding pair of strands from the functionally related maltoporin of Salmonella typhimurium yielded a protein active in vivo and in vitro; and (ii) the removal of one pair of beta-strands (deletion beta13-beta14) from the E. coli maltoporin, or its replacement by a pair of strands from the general porin OmpF of E. coli, leads to recombinant proteins that lost in vivo maltoporin activities but still kept channel formation and carbohydrate binding in vitro. We also inserted into deletion beta13-beta14 the portion of the E. coli LamB protein comprising strands beta13 to beta16. This resulted in a protein expected to have 20 beta-strands and which completely lost all LamB-specific activities in vivo and in vitro.

Published

2000