Joanna D. Thomas scite author profile

In Escherichia coli, a subset of periplasmic proteins is exported via the twin-arginine translocation (Tat) pathway. In the present study, we have purified the Tat complex from E. coli, and we show that it contains only TatA, TatB, and TatC. Within the purified complex, TatB and TatC are present in a strict 1:1 ratio, suggesting a functional association. This has been confirmed by expression of a translational fusion between TatB and TatC. This Tat(BC) chimera supports efficient Tat-dependent export, indicating that TatB and TatC act as a unit in both structural and functional terms. The purified Tat complex contains varying levels of TatA, suggesting a gradual loss during isolation and a looser association. The molecular mass of the complex is ϳ600 kDa, demonstrating the presence of multiple copies of TatA, B, and C. Co-immunoprecipitation experiments show that TatC is required for the interaction of TatA with TatB, suggesting that TatA may interact with the complex via binding to TatC.

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Export of active green fluorescent protein to the periplasm by the twin‐arginine translocase (Tat) pathway in Escherichia coli

Thomas

Daniel

Errington

et al. 2001

Molecular Microbiology

267

264

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SummaryThe twin-arginine translocation (Tat) system targets cofactor-containing proteins across the Escherichia coli cytoplasmic membrane via distinct signal peptides bearing a twin-arginine motif. In this study, we have analysed the mechanism and capabilities of the E. coli Tat system using green fluorescent protein (GFP) fused to the twin-arginine signal peptide of TMAO reductase (TorA). Fractionation studies and fluorescence measurements demonstrate that GFP is exported to the periplasm where it is fully active. Export is almost totally blocked in tat deletion mutants, indicating that the observed export in wildtype cells occurs predominantly, if not exclusively, by the Tat pathway. Imaging studies reveal a halo of fluorescence in wild-type cells corresponding to the exported periplasmic form; the GFP is distributed uniformly throughout the cytoplasm in a tat mutant. Because previous work has shown GFP to be incapable of folding in the periplasm, we propose that GFP is exported in a fully folded, active state. These data also show for the first time that heterologous proteins can be exported in an active form by the Tat pathway.

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The general secretion pathway of Erwinia carotovora subsp. carotovora: analysis of the membrane topology of OutC and OutF

Thomas

Reeves

Salmond

1997

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The out gene cluster of Erwinia carotovora subsp. carotovora (Ecc) encodes the proteins of the type II or general secretory pathway (GSP) apparatus which is required for secretion of pectinase and cellulase. In this study, fusions between Ecc out genes and the topology probe blaM were constructed. The ability of Out protein domains to export BlaM across the cytoplasmic membrane in both Escherichia coli and the cognate host was utilized to confirm the computer-predicted cytoplasmic membrane topology of OutC and OutF. When outC was fused to MaM, the resulting phenotype suggested that the majority of OutC is targeted to the periplasm, typical of a type II bitopic conformation in the cytoplasmic membrane. In contrast, for the outf gene product, three transmembrane regions were identified which connect a large N-terminal cytoplasmic domain, a smaller periplasmic domain, and a large cytoplasmic loop. Fusions between blaM and outD and out€ were used to further substantiate the locations of these gene products in the outer membrane and the cytoplasm respectively. The data derived suggest that a number of the Out apparatus components possess domains in the cytoplasm and/or the periplasm with potential for protein-protein interactions which facilitate the secretion of periplasmic enzyme intermediates across the outer membrane to the external milieu.

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12 Virulence Determinants in the Bacterial Phytopathogen Erwinia

Thomson

Thomas

Salmond

1999

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Erwinia carotovora DsbA mutants: evidence for a periplasmic-stress signal transduction system affecting transcription of genes encoding secreted proteins

Vincent-Sealy¹,

Thomas²,

Commander³

et al. 1999

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The ds6A genes, which encode major periplasmic disulf ide-bond-forming proteins, were isolated from Erwinia carotovora subsp. carotovora (Ecc) and Erwinia carotovora subsp. atroseptica (Eca), and the ds6C gene, encoding another periplasmic disulfide oxidoreductase was isolated from Ecc. All three genes were sequenced and mutants deficient in these genes were created by marker exchange mutagenesis. The Ecc mutants were severely affected in activity and secretion of pectate lyase, probably due to the absence of functional PelC, which is predicted to require disulfide bond formation to achieve its correct conformation prior to secretion across the outer membrane. Similarly, endopolygalacturonase, also predicted to possess disulf ide bonds, displayed reduced activity. The major Ecc cellulase (CelV) does not contain cysteine residues and was still secreted in ds6A-deficient strains. This observation demonstrated unequivocally that the localization and activity of the individual components of the Out apparatus are independent of disulf ide bond formation. Surprisingly, cellulase activity was shown to be increased -two-to threefold in the DsbA mutant. This phenomenon resulted from transcriptional up-regulation of cell/ gene expression. In contrast, transcription of both pelC and peh were down-regulated in ds6A-deficient strains when compared to the wild-type. Protease (Prt) activity and secretion were unaffected in the Ecc ds6A mutant. Prt activity was considerably reduced in the double ds6A ds6C mutant. However Prt was secreted normally in this strain. The Eca ds6A mutant was found to be non-motile, suggesting that disulfide bond formation is essential for motility in this strain. All of the ds6 mutants showed reduced tissue maceration in planta. These results suggest that a feedback regulation system operates in Ecc. In this system, defects in periplasmic disulfide bond formation act as a signal which is relayed to the transcription machinery regulating gene expression in diverse ways.

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Conditional mutations in OutE and OutL block exoenzyme secretion across theErwinia carotovoraouter membrane

Housby

Thomas

Wharam

et al. 1998

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The phytopathogen Erwinia carotovora subspecies carotovora secretes pectinases and cellulase via the general secretory pathway, a process requiring at least 13 proteins encoded by the out gene cluster. By exploiting delta::Tn5, a generalised transducing phage (psi KP) and localised mutagenesis of the out gene cluster, we have produced a histidine auxotroph and 19 new secretory mutants, including two (HJN1003 and HJN1004) which were conditional (temperature sensitive) for secretion. All of the mutants accumulated pectinases and cellulase in the periplasm, but in the case of HJN1003 and HJN1004, only at the restrictive temperature. HJN1003 and HJN1004 were complemented by the outE and outL wild-type genes, respectively, and both mutant alleles were cloned and sequenced to reveal single missense substitutions. HJN1003 carries an Arg166 to His alteration in OutE and HJN1004 carries a Pro159 to Leu alteration in OutL. Topology mapping of OutL using a beta-lactamase probe confirmed that OutL is a type II bitopic trans-inner membrane protein and that the mutated Pro159 residue in HJN1004 is located in the cytoplasmic domain of OutL. Hence, the secretion of exoenzymes across the outer membrane is critically dependent on the conformation of secretory components located at the cytoplasmic face of the inner membrane.

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Novel use of Thrombelastograph platelet mapping in a patient taking dipyridamole

Thomas

Vinh

Schulz

et al. 2011

Journal of Clinical Anesthesia

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Joanna D. Thomas

TatB and TatC Form a Functional and Structural Unit of the Twin-arginine Translocase from Escherichia coli

Export of active green fluorescent protein to the periplasm by the twin‐arginine translocase (Tat) pathway in Escherichia coli

The general secretion pathway of Erwinia carotovora subsp. carotovora: analysis of the membrane topology of OutC and OutF

12 Virulence Determinants in the Bacterial Phytopathogen Erwinia

Erwinia carotovora DsbA mutants: evidence for a periplasmic-stress signal transduction system affecting transcription of genes encoding secreted proteins

Conditional mutations in OutE and OutL block exoenzyme secretion across theErwinia carotovoraouter membrane

Novel use of Thrombelastograph platelet mapping in a patient taking dipyridamole

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