Roland Lloubes - Academia.edu (original) (raw)
Papers by Roland Lloubes
Nature, 2016
In Gram-negative bacteria, outer membrane transporters import nutrients by coupling to an inner m... more In Gram-negative bacteria, outer membrane transporters import nutrients by coupling to an inner membrane protein complex called the Ton complex. The Ton complex consists of TonB, ExbB, and ExbD, and uses the proton motive force at the inner membrane to transduce energy to the outer membrane via TonB. Here, we structurally characterize the Ton complex from Escherichia coli using X-ray crystallography, electron microscopy, double electron-electron resonance (DEER) spectroscopy, and crosslinking. Our results reveal a stoichiometry consisting of a pentamer of ExbB, a dimer of ExbD, and at least one TonB. Electrophysiology studies show that the Ton subcomplex forms pH-sensitive cation-selective channels and provide insight into the mechanism by which it may harness the proton motive force to produce energy.
The Journal of Biological Chemistry, 2009
The TolQRA proteins of Escherichia coli form an inner membrane complex involved in the maintenanc... more The TolQRA proteins of Escherichia coli form an inner membrane complex involved in the maintenance of the outer membrane stability and in the late stages of cell division. The TolQR complex uses the proton motive force to regulate TolA conformation and its interaction with the outer membrane Pal lipoprotein. It has been proposed that an ion channel forms at the TolQR transmembrane helix (TMH) interface. This complex assembles with a minimal TolQ:TolR ratio of 4 -6:2 and therefore involves 14 -20 TMHs. To define the organization of the transmembrane helices in the membrane within the TolQR complex, we initiated a cysteine scanning study. In this study, we report results for the systematic replacement of each residue of the TolR TMH. Phenotypic analyses first showed that most of the mutants are functional. Three mutants, TolR L22C, D23C, and V24C, were shown to affect TolQR functioning. Disulfide bond complex formation further showed that two TolR anchors are close enough to interact. Two substitutions, L22C and V24C, form high level of dimers, suggesting that the TolR helix rotates as molecular gears between these two positions and that disulfide bond formation between these residues blocked the rotary motion. Mutations of critical residues located within the TolQ TMH2 and TMH3 and the TolR TMH and proposed to form the ion pathway prevent rotation between these two residues. TolR anchors may form molecular gears that oscillate in response to proton motive force to regulate channel activity.
Acta Crystallographica Section D Biological Crystallography, Feb 1, 2001
Journal of Bacteriology, Oct 1, 2010
Colicin M (ColM) is a bactericidal protein that kills sensitive cells by hydrolyzing lipid II, in... more Colicin M (ColM) is a bactericidal protein that kills sensitive cells by hydrolyzing lipid II, involved in the biosynthesis of cell wall peptidoglycan. It recognizes FhuA on the outer leaflet, and its translocation through the outer membrane depends on the energized Ton complex in the inner membrane. To be active in the periplasm, ColM must be translocated through the outer membrane and then interact with FkpA, a periplasmic protein that exhibits both cis-and trans-peptidylprolyl isomerase (PPiase) and chaperon activities. In an attempt to directly target ColM to the periplasm of the producing bacteria, we fused the presequence of OmpA to ColM (sp-ColM). We found that expression of this hybrid protein in an Escherichia coli strain devoid of ColM immunity protein (Cmi) was bactericidal. We showed that sp-ColM was correctly expressed, processed, and associated with the inner membrane. sp-ColM toxicity was related to its enzymatic activity and did not rely on the TonB import proteins or the FhuA receptor. The presence of both activity domains of FkpA was still required for sp-ColM activity. Analyses of deletion mutants of sp-ColM show that the domain required for toxicity corresponds to the C-terminal last 153 amino acids of ColM. Like the full-length protein, this domain is not active in the presence of the immunity protein Cmi. On the other hand, it does not require FkpA for toxic activity.
Journal of Molecular Biology, Mar 9, 2007
In Gram-negative bacteria, many biological processes are coupled to inner membrane ion gradients.... more In Gram-negative bacteria, many biological processes are coupled to inner membrane ion gradients. Ions transit at the interface of helices of integral membrane proteins, generating mechanical energy to drive energetic processes. To better understand how ions transit through these channels, we used a model system involved in two different processes, one of which depends on inner membrane energy. The Tol machinery of the Escherichia coli cell envelope is dedicated to maintaining outer membrane stability, a process driven by the proton-motive force. The Tol system is parasitized by bacterial toxins called colicins, which are imported through the outer membrane using an energy-independent process. Herein, we mutated TolQ and TolR transmembrane residues, and we analyzed the mutants for outer membrane stability, colicin import and protein complex formation. We identified residues involved in the assembly of the complex, and a new class of discriminative mutations that conferred outer membrane destabilization identical to a tol deletion mutant, but which remained fully sensitive to colicins. Further genetic approaches revealed transmembrane helix interactions and organization in the bilayer, and suggested that most of the discriminative residues are located in a putative aqueous ion channel. We discuss a model for the function of related bacterial molecular motors.
Journal of Bacteriology, Sep 15, 1998
Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins... more Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins into the extracellular medium and hypersensitivity to drugs and detergents. Other outer membrane defective strains such as tolC, lpp, and rfa mutations are also altered in their outer membrane permeability. In this study, electron microscopy and Western blot analyses were used to show that strains with mutations in each of the tol-pal genes formed outer membrane vesicles after growth in standard liquid or solid media. This phenotype was not observed in tolC and rfaD cells in the same conditions. A tolA deletion in three different Escherichia coli strains was shown to lead to elevated amounts of vesicles. These results, together with plasmid complementation experiments, indicated that the formation of vesicles resulted from the defect of any of the Tol-Pal proteins. The vesicles contained outer membrane trimeric porins correctly exposed at the cell surface. Pal outer membrane lipoprotein was also immunodetected in the vesicle fraction of tol strains. The results are discussed in view of the role of the Tol-Pal transenvelope proteins in maintaining outer membrane integrity by contributing to target or integrate newly synthesized components of this structure.
Nucleic Acids Research, Mar 25, 1986
The Embo Journal, Sep 1, 1991
Journal of Molecular Biology, Dec 1, 1984
... codons are used. Second, the possible role of mRNA secondary structure in creating a nonunifo... more ... codons are used. Second, the possible role of mRNA secondary structure in creating a nonuniform rate of translation is probably a minor one, if it exists at all, for the OmpA protein. 566 S. VARENNE ET AL. (g) Comparison of ...
The Embo Journal, Mar 1, 1992
The addition of the pore forming colicin A to Escherichia coli cells results in an efflux of cyto... more The addition of the pore forming colicin A to Escherichia coli cells results in an efflux of cytoplasmic potassium. This efflux is preceded by a lag time which is related to the time needed for the translocation of the toxin through the envelope. Denaturing the colicin A with urea, before adding it to the cells, did not affect the properties of the pore but decreased the lag time. After renaturation, the lag time was similar to that of the native colicin. This suggests that the unfolding of colicin A accelerates its translocation. The addition of trypsin, which has access neither to the periplasmic space nor to the cytoplasmic membrane, resulted in an immediate arrest of the potassium efflux induced by colicins A and B. The possibility that trypsin may act on a bacterial component required for colicin reception and/or translocation was ruled out. It is thus likely that the arrest of the efflux corresponds to a closing of the pores. This long distance effect of trypsin suggests that part of the polypeptide chain of the colicins may still be in contact with the external medium even when the pore has formed in the inner membrane.
Mgg Molecular and General Genetics, Jul 1, 1989
Two plasmids that overproduce the colicin A lysis protein, Cal, are described. Plasmid AT1 was co... more Two plasmids that overproduce the colicin A lysis protein, Cal, are described. Plasmid AT1 was constructed by a deletion in the colicin A operon, which placed the cal gene near a truncated caa gene in such a way that both gene products were synthesized at high levels following induction. Plasmid CK4 was constructed by insertion of the cal gene downstream from the tac promoter of an expression vector. Overproduction of Cal was obtained after mitomycin C induction of pAT1 cells and after IPTG induction of pCK4 ceils. The kinetics of Cal synthesis were examined with [3ss] methionine and [2-3H] glycerol in lpp or lpp § host strains. Each of the steps of the lipid modification and maturation pathway of Cal was demonstrated. The modified precursor form of overproduced Cal was not chased as efficiently as when it is produced in pColA cells. After treatment with globomycin, a significant amount of this modified precursor form accumulated and was degraded with time into smaller acylated proteins, but without release of the signal peptide. Release of cellular proteins and quasi-lysis were observed after about 1 hour of induction for cells containing either plasmid. In addition, in Caloverproducing cells, the rate of quasi-lysis was increased but not its extent. In pldA cells, quasi-lysis was reduced but not abolished. Lethality of the Cal induction in the overproducing cells was in the same range as that in wildtype cells.
Journal of Bacteriology, Oct 1, 1998
Gene, Aug 1, 1989
DNA constructs coding for human growth hormone (hGH)-releasing factor (hGRF) preceded by the spec... more DNA constructs coding for human growth hormone (hGH)-releasing factor (hGRF) preceded by the specific recognition sequence for the activated blood coagulation factor X (FXa), fused in frame to the N-terminal 172-amino acid residues of colicin A, have been expressed in Escherichia coli. The construct was placed under the control of the inducible caa promoter in an operon containing a downstream gene coding for the cell lysis protein, Cal. Induction resulted in excretion of only the processed colicin A fragment. Replacement of Cal by the terminator from phage fd resulted in high expression of the hybrid protein, which was recovered as cytoplasmic aggregates. Enzymatic cleavage of the purified and renatured hybrid protein using FXa allowed the recovery of authentic hGRF.
Nucleic Acids Research, May 11, 1988
We have analysed by S 1 nuclease mapping the in vivo termination sites of transcription of the ca... more We have analysed by S 1 nuclease mapping the in vivo termination sites of transcription of the caa-cal operon and cai gene. The termination region for caa mRNA (TIA terminator) features characteristics of a rho-independent terminator. This terminator is a convergent transcription terminator, its complementary secondary structure being present at the 3'-end of cai mRNA. The caa-cal mRNA terminator (T2A terminator) has a stable potential secondary structure and shows homology with rho-dependent terminators. In vitro transcription of caacal operon demonstrated that the two terminators TIA and T2A are efficient. The 3-ends of the mRNAs which end at TIA and T2A were analysed by SI mapping with total RNA purified from a mutant strain deficient in exoribonuclease activities, in particular RNase II. The results suggest that the potential secondary structures of TlA and T2A are sufficiently stable to prevent 3-end degradation by RNase II. On the other hand, the T2A terminator should be efficient enough to stop transcription through the downstream DNA region involved in pColA replication.
The EMBO Journal
TolA is an inner membrane protein with three domains: a transmembrane N-terminus and periplasmic ... more TolA is an inner membrane protein with three domains: a transmembrane N-terminus and periplasmic central and C-terminal domains. The interaction of TolA with outer membrane porins of Escherichia coli was investigated. Western blot analyses of cell extracts with anti-TolA antibodies indicated that TolA forms high molecular weight complexes specifically with trimeric OmpF, OmpC, PhoE and LamB, but not with OmpA. The interaction of purified TolA domains with purified porins was also studied. TolA interacted with OmpF, PhoE and LamB porins via its central domain, but not with either their denatured monomeric forms or OmpA. Moreover, the presence or absence of lipopolysaccharides associated with trimeric porins did not modify the interactions. These results suggest that the specific interaction of TolA with outer membrane porins might be relevant to the function of Tol proteins.
Bacteriocins, Microcins and Lantibiotics, 1992
Journal of bacteriology, 1998
Journal of bacteriology, 1998
Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins... more Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins into the extracellular medium and hypersensitivity to drugs and detergents. Other outer membrane defective strains such as tolC, lpp, and rfa mutations are also altered in their outer membrane permeability. In this study, electron microscopy and Western blot analyses were used to show that strains with mutations in each of the tol-pal genes formed outer membrane vesicles after growth in standard liquid or solid media. This phenotype was not observed in tolC and rfaD cells in the same conditions. A tolA deletion in three different Escherichia coli strains was shown to lead to elevated amounts of vesicles. These results, together with plasmid complementation experiments, indicated that the formation of vesicles resulted from the defect of any of the Tol-Pal proteins. The vesicles contained outer membrane trimeric porins correctly exposed at the cell surface. Pal outer membrane lipoprotein...
Journal of bacteriology, 1997
TolB is a periplasmic protein of the cell envelope Tol complex. It is partially membrane associat... more TolB is a periplasmic protein of the cell envelope Tol complex. It is partially membrane associated through an interaction with the outer membrane lipoprotein PAL (peptidoglycan-associated lipoprotein), which also belongs to the Tol system. The interaction of TolB with outer membrane porins of Escherichia coli was investigated with a purified TolB derivative harboring a six-histidine tag. TolB interacted with the trimeric porins OmpF, OmpC, PhoE, and LamB but not with their denatured monomeric forms or OmpA. These interactions took place both in the presence and in the absence of lipopolysaccharide. TolA, an inner membrane component of the Tol system, also interacts with the trimeric porins via its central periplasmic domain (R. Dérouiche, M. Gavioli, H. Bénédetti, A. Prilipov, C. Lazdunski, and R. Lloubès, EMBO J. 15:6408-6415, 1996). In the presence of the purified central domain of TolA (TolAIIHis), the TolB-porin complexes disappeared to form TolAIIHis-porin complexes. These res...
Nature, 2016
In Gram-negative bacteria, outer membrane transporters import nutrients by coupling to an inner m... more In Gram-negative bacteria, outer membrane transporters import nutrients by coupling to an inner membrane protein complex called the Ton complex. The Ton complex consists of TonB, ExbB, and ExbD, and uses the proton motive force at the inner membrane to transduce energy to the outer membrane via TonB. Here, we structurally characterize the Ton complex from Escherichia coli using X-ray crystallography, electron microscopy, double electron-electron resonance (DEER) spectroscopy, and crosslinking. Our results reveal a stoichiometry consisting of a pentamer of ExbB, a dimer of ExbD, and at least one TonB. Electrophysiology studies show that the Ton subcomplex forms pH-sensitive cation-selective channels and provide insight into the mechanism by which it may harness the proton motive force to produce energy.
The Journal of Biological Chemistry, 2009
The TolQRA proteins of Escherichia coli form an inner membrane complex involved in the maintenanc... more The TolQRA proteins of Escherichia coli form an inner membrane complex involved in the maintenance of the outer membrane stability and in the late stages of cell division. The TolQR complex uses the proton motive force to regulate TolA conformation and its interaction with the outer membrane Pal lipoprotein. It has been proposed that an ion channel forms at the TolQR transmembrane helix (TMH) interface. This complex assembles with a minimal TolQ:TolR ratio of 4 -6:2 and therefore involves 14 -20 TMHs. To define the organization of the transmembrane helices in the membrane within the TolQR complex, we initiated a cysteine scanning study. In this study, we report results for the systematic replacement of each residue of the TolR TMH. Phenotypic analyses first showed that most of the mutants are functional. Three mutants, TolR L22C, D23C, and V24C, were shown to affect TolQR functioning. Disulfide bond complex formation further showed that two TolR anchors are close enough to interact. Two substitutions, L22C and V24C, form high level of dimers, suggesting that the TolR helix rotates as molecular gears between these two positions and that disulfide bond formation between these residues blocked the rotary motion. Mutations of critical residues located within the TolQ TMH2 and TMH3 and the TolR TMH and proposed to form the ion pathway prevent rotation between these two residues. TolR anchors may form molecular gears that oscillate in response to proton motive force to regulate channel activity.
Acta Crystallographica Section D Biological Crystallography, Feb 1, 2001
Journal of Bacteriology, Oct 1, 2010
Colicin M (ColM) is a bactericidal protein that kills sensitive cells by hydrolyzing lipid II, in... more Colicin M (ColM) is a bactericidal protein that kills sensitive cells by hydrolyzing lipid II, involved in the biosynthesis of cell wall peptidoglycan. It recognizes FhuA on the outer leaflet, and its translocation through the outer membrane depends on the energized Ton complex in the inner membrane. To be active in the periplasm, ColM must be translocated through the outer membrane and then interact with FkpA, a periplasmic protein that exhibits both cis-and trans-peptidylprolyl isomerase (PPiase) and chaperon activities. In an attempt to directly target ColM to the periplasm of the producing bacteria, we fused the presequence of OmpA to ColM (sp-ColM). We found that expression of this hybrid protein in an Escherichia coli strain devoid of ColM immunity protein (Cmi) was bactericidal. We showed that sp-ColM was correctly expressed, processed, and associated with the inner membrane. sp-ColM toxicity was related to its enzymatic activity and did not rely on the TonB import proteins or the FhuA receptor. The presence of both activity domains of FkpA was still required for sp-ColM activity. Analyses of deletion mutants of sp-ColM show that the domain required for toxicity corresponds to the C-terminal last 153 amino acids of ColM. Like the full-length protein, this domain is not active in the presence of the immunity protein Cmi. On the other hand, it does not require FkpA for toxic activity.
Journal of Molecular Biology, Mar 9, 2007
In Gram-negative bacteria, many biological processes are coupled to inner membrane ion gradients.... more In Gram-negative bacteria, many biological processes are coupled to inner membrane ion gradients. Ions transit at the interface of helices of integral membrane proteins, generating mechanical energy to drive energetic processes. To better understand how ions transit through these channels, we used a model system involved in two different processes, one of which depends on inner membrane energy. The Tol machinery of the Escherichia coli cell envelope is dedicated to maintaining outer membrane stability, a process driven by the proton-motive force. The Tol system is parasitized by bacterial toxins called colicins, which are imported through the outer membrane using an energy-independent process. Herein, we mutated TolQ and TolR transmembrane residues, and we analyzed the mutants for outer membrane stability, colicin import and protein complex formation. We identified residues involved in the assembly of the complex, and a new class of discriminative mutations that conferred outer membrane destabilization identical to a tol deletion mutant, but which remained fully sensitive to colicins. Further genetic approaches revealed transmembrane helix interactions and organization in the bilayer, and suggested that most of the discriminative residues are located in a putative aqueous ion channel. We discuss a model for the function of related bacterial molecular motors.
Journal of Bacteriology, Sep 15, 1998
Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins... more Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins into the extracellular medium and hypersensitivity to drugs and detergents. Other outer membrane defective strains such as tolC, lpp, and rfa mutations are also altered in their outer membrane permeability. In this study, electron microscopy and Western blot analyses were used to show that strains with mutations in each of the tol-pal genes formed outer membrane vesicles after growth in standard liquid or solid media. This phenotype was not observed in tolC and rfaD cells in the same conditions. A tolA deletion in three different Escherichia coli strains was shown to lead to elevated amounts of vesicles. These results, together with plasmid complementation experiments, indicated that the formation of vesicles resulted from the defect of any of the Tol-Pal proteins. The vesicles contained outer membrane trimeric porins correctly exposed at the cell surface. Pal outer membrane lipoprotein was also immunodetected in the vesicle fraction of tol strains. The results are discussed in view of the role of the Tol-Pal transenvelope proteins in maintaining outer membrane integrity by contributing to target or integrate newly synthesized components of this structure.
Nucleic Acids Research, Mar 25, 1986
The Embo Journal, Sep 1, 1991
Journal of Molecular Biology, Dec 1, 1984
... codons are used. Second, the possible role of mRNA secondary structure in creating a nonunifo... more ... codons are used. Second, the possible role of mRNA secondary structure in creating a nonuniform rate of translation is probably a minor one, if it exists at all, for the OmpA protein. 566 S. VARENNE ET AL. (g) Comparison of ...
The Embo Journal, Mar 1, 1992
The addition of the pore forming colicin A to Escherichia coli cells results in an efflux of cyto... more The addition of the pore forming colicin A to Escherichia coli cells results in an efflux of cytoplasmic potassium. This efflux is preceded by a lag time which is related to the time needed for the translocation of the toxin through the envelope. Denaturing the colicin A with urea, before adding it to the cells, did not affect the properties of the pore but decreased the lag time. After renaturation, the lag time was similar to that of the native colicin. This suggests that the unfolding of colicin A accelerates its translocation. The addition of trypsin, which has access neither to the periplasmic space nor to the cytoplasmic membrane, resulted in an immediate arrest of the potassium efflux induced by colicins A and B. The possibility that trypsin may act on a bacterial component required for colicin reception and/or translocation was ruled out. It is thus likely that the arrest of the efflux corresponds to a closing of the pores. This long distance effect of trypsin suggests that part of the polypeptide chain of the colicins may still be in contact with the external medium even when the pore has formed in the inner membrane.
Mgg Molecular and General Genetics, Jul 1, 1989
Two plasmids that overproduce the colicin A lysis protein, Cal, are described. Plasmid AT1 was co... more Two plasmids that overproduce the colicin A lysis protein, Cal, are described. Plasmid AT1 was constructed by a deletion in the colicin A operon, which placed the cal gene near a truncated caa gene in such a way that both gene products were synthesized at high levels following induction. Plasmid CK4 was constructed by insertion of the cal gene downstream from the tac promoter of an expression vector. Overproduction of Cal was obtained after mitomycin C induction of pAT1 cells and after IPTG induction of pCK4 ceils. The kinetics of Cal synthesis were examined with [3ss] methionine and [2-3H] glycerol in lpp or lpp § host strains. Each of the steps of the lipid modification and maturation pathway of Cal was demonstrated. The modified precursor form of overproduced Cal was not chased as efficiently as when it is produced in pColA cells. After treatment with globomycin, a significant amount of this modified precursor form accumulated and was degraded with time into smaller acylated proteins, but without release of the signal peptide. Release of cellular proteins and quasi-lysis were observed after about 1 hour of induction for cells containing either plasmid. In addition, in Caloverproducing cells, the rate of quasi-lysis was increased but not its extent. In pldA cells, quasi-lysis was reduced but not abolished. Lethality of the Cal induction in the overproducing cells was in the same range as that in wildtype cells.
Journal of Bacteriology, Oct 1, 1998
Gene, Aug 1, 1989
DNA constructs coding for human growth hormone (hGH)-releasing factor (hGRF) preceded by the spec... more DNA constructs coding for human growth hormone (hGH)-releasing factor (hGRF) preceded by the specific recognition sequence for the activated blood coagulation factor X (FXa), fused in frame to the N-terminal 172-amino acid residues of colicin A, have been expressed in Escherichia coli. The construct was placed under the control of the inducible caa promoter in an operon containing a downstream gene coding for the cell lysis protein, Cal. Induction resulted in excretion of only the processed colicin A fragment. Replacement of Cal by the terminator from phage fd resulted in high expression of the hybrid protein, which was recovered as cytoplasmic aggregates. Enzymatic cleavage of the purified and renatured hybrid protein using FXa allowed the recovery of authentic hGRF.
Nucleic Acids Research, May 11, 1988
We have analysed by S 1 nuclease mapping the in vivo termination sites of transcription of the ca... more We have analysed by S 1 nuclease mapping the in vivo termination sites of transcription of the caa-cal operon and cai gene. The termination region for caa mRNA (TIA terminator) features characteristics of a rho-independent terminator. This terminator is a convergent transcription terminator, its complementary secondary structure being present at the 3'-end of cai mRNA. The caa-cal mRNA terminator (T2A terminator) has a stable potential secondary structure and shows homology with rho-dependent terminators. In vitro transcription of caacal operon demonstrated that the two terminators TIA and T2A are efficient. The 3-ends of the mRNAs which end at TIA and T2A were analysed by SI mapping with total RNA purified from a mutant strain deficient in exoribonuclease activities, in particular RNase II. The results suggest that the potential secondary structures of TlA and T2A are sufficiently stable to prevent 3-end degradation by RNase II. On the other hand, the T2A terminator should be efficient enough to stop transcription through the downstream DNA region involved in pColA replication.
The EMBO Journal
TolA is an inner membrane protein with three domains: a transmembrane N-terminus and periplasmic ... more TolA is an inner membrane protein with three domains: a transmembrane N-terminus and periplasmic central and C-terminal domains. The interaction of TolA with outer membrane porins of Escherichia coli was investigated. Western blot analyses of cell extracts with anti-TolA antibodies indicated that TolA forms high molecular weight complexes specifically with trimeric OmpF, OmpC, PhoE and LamB, but not with OmpA. The interaction of purified TolA domains with purified porins was also studied. TolA interacted with OmpF, PhoE and LamB porins via its central domain, but not with either their denatured monomeric forms or OmpA. Moreover, the presence or absence of lipopolysaccharides associated with trimeric porins did not modify the interactions. These results suggest that the specific interaction of TolA with outer membrane porins might be relevant to the function of Tol proteins.
Bacteriocins, Microcins and Lantibiotics, 1992
Journal of bacteriology, 1998
Journal of bacteriology, 1998
Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins... more Mutations in the tol-pal genes induce pleiotropic effects such as release of periplasmic proteins into the extracellular medium and hypersensitivity to drugs and detergents. Other outer membrane defective strains such as tolC, lpp, and rfa mutations are also altered in their outer membrane permeability. In this study, electron microscopy and Western blot analyses were used to show that strains with mutations in each of the tol-pal genes formed outer membrane vesicles after growth in standard liquid or solid media. This phenotype was not observed in tolC and rfaD cells in the same conditions. A tolA deletion in three different Escherichia coli strains was shown to lead to elevated amounts of vesicles. These results, together with plasmid complementation experiments, indicated that the formation of vesicles resulted from the defect of any of the Tol-Pal proteins. The vesicles contained outer membrane trimeric porins correctly exposed at the cell surface. Pal outer membrane lipoprotein...
Journal of bacteriology, 1997
TolB is a periplasmic protein of the cell envelope Tol complex. It is partially membrane associat... more TolB is a periplasmic protein of the cell envelope Tol complex. It is partially membrane associated through an interaction with the outer membrane lipoprotein PAL (peptidoglycan-associated lipoprotein), which also belongs to the Tol system. The interaction of TolB with outer membrane porins of Escherichia coli was investigated with a purified TolB derivative harboring a six-histidine tag. TolB interacted with the trimeric porins OmpF, OmpC, PhoE, and LamB but not with their denatured monomeric forms or OmpA. These interactions took place both in the presence and in the absence of lipopolysaccharide. TolA, an inner membrane component of the Tol system, also interacts with the trimeric porins via its central periplasmic domain (R. Dérouiche, M. Gavioli, H. Bénédetti, A. Prilipov, C. Lazdunski, and R. Lloubès, EMBO J. 15:6408-6415, 1996). In the presence of the purified central domain of TolA (TolAIIHis), the TolB-porin complexes disappeared to form TolAIIHis-porin complexes. These res...