- Volume 149, Issue 3, 2003
Volume 149, Issue 3, 2003
- Pathogens And Pathogenicity
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Catalase (KatA) and KatA-associated protein (KapA) are essential to persistent colonization in the Helicobacter pylori SS1 mouse model
Helicobacter pylori infects the human gastric mucosa and elicits an aggressive inflammatory response. Despite the severity of the inflammatory response, the bacterium is able to persist and cause a chronic infection. It is believed that antioxidant defence mechanisms enable this organism to persist. Wild-type H. pylori strain SS1, and KatA- and KapA-deficient mutants, were used to infect C57/BL6 mice to test this hypothesis. Neither KatA nor KapA was essential for the initial colonization of H. pylori SS1 in the murine model of infection. The wild-type SS1 colonized the gastric mucosa at significantly higher levels than both mutants throughout the 24-week experiment. Neither KatA- nor KapA-deficient mutants were able to maintain consistent ongoing colonization for the 24-week period, indicating the necessity of both KapA and KatA in sustaining a long-term infection. At 24 weeks, 5/10 mice inoculated with the KatA mutant and 2/10 mice inoculated with the KapA mutant were colonized, compared with 10/10 of the mice inoculated with the wild-type SS1. An increase in the severity of inflammation in the wild-type-inoculated mice appeared to correlate with the decline in colonization of animals inoculated with the mutants, suggesting that increased oxidative stress militated against continued infection by the mutants. These data indicate that KapA may be of equal or greater importance than KatA in terms of sustained infection on inflamed gastric mucosae.
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- Physiology
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The extracytoplasmic folding factor PrsA is required for protein secretion only in the presence of the cell wall in Bacillus subtilis
More LessPulse–chase labelling was used to study the role of the cell wall microenvironment in the functioning of Bacillus subtilis PrsA, an extracellular lipoprotein and member of the parvulin family of peptidylprolyl cis/trans-isomerases. It was found that in protoplasts, and thus in the absence of a cell wall matrix, the post-translocational folding, stability and secretion of the AmyQ α-amylase were independent of PrsA, in contrast to the strict dependency found in rods. The results indicate that PrsA is dedicated to assisting the folding and stability of exported proteins in the particular microenvironment of the cytoplasmic membrane–cell wall interface, possibly as a chaperone preventing unproductive interactions with the wall. The data also provide evidence for a crucial role of the wall in protein secretion. The presence of the wall directly or indirectly facilitates the release of AmyQ from the cell membrane and affects the rate of the signal peptide processing.
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Haemin uptake and use as an iron source by Candida albicans: role of CaHMX1-encoded haem oxygenase
Candida albicans, unlike Saccharomyces cerevisiae, was able to use extracellular haemin as an iron source. Haemin uptake kinetics by C. albicans cells showed two phases: a rapid phase of haemin binding (with a K d of about 0·2 μM) followed by a slower uptake phase. Both phases were strongly induced in iron-deficient cells compared to iron-rich cells. Haemin uptake did not depend on the previously characterized reductive iron uptake system and siderophore uptake system. CaHMX1, encoding a putative haem oxygenase, was shown to be required for iron assimilation from haemin. A double ΔCahmx1 mutant was constructed. This mutant could not grow with haemin as the sole iron source, although haemin uptake was not affected. The three different iron uptake systems (reductive, siderophore and haemin) were regulated independently and in a complex manner. CaHMX1 expression was induced by iron deprivation, by haemin and by a shift of temperature from 30 to 37 °C. CaHMX1 expression was strongly deregulated in a Δefg1 mutant but not in a Δtup1 mutant. C. albicans colonies forming on agar plates with haemin as the sole iron source showed a very unusual morphology. Colonies were made up of tubular structures that were organized into a complex network. The effect of haemin on filamentation was increased in the double ΔCahmx1 mutant. This study provides the first experimental evidence that haem oxygenase is required for iron assimilation from haem by a pathogenic fungus.
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Characterization, localization and functional analysis of Gpr1p, a protein affecting sensitivity to acetic acid in the yeast Yarrowia lipolytica
More LessAdaptation of cells to acetic acid requires a hitherto unknown number of proteins. Studies on the GPR1 gene and its encoded protein in the ascomycetous fungus Yarrowia lipolytica have revealed an involvement of this protein in the molecular processes of adaptation to acetic acid. Gpr1p belongs to a novel family of conserved proteins in prokaryotic and eukaryotic organisms that is characterized by the two motifs (A/G)NPAPLGL and SYG(X)FW (GPR1_FUN34_YaaH protein family). Analysis of four trans-dominant mutations and N-terminal deletion analysis of Gpr1p identified the amino acid sequence FGGTLN important for function of this protein in Y. lipolytica. Deletion of GPR1 slowed down adaptation to acetic acid, but had no effect on growth in the presence of acetic acid. Expression of GPR1 is induced by acetic acid and moderately repressed by glucose. It was shown by subcellular fractionation that Gpr1p is an integral membrane protein, which is also suggested by the presence of five to six putative transmembrane spanning regions. Fluorescence microscopy confirmed a localization to the plasma membrane. A model is presented describing a hypothetical function of Gpr1p during adaptation to acetic acid.
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Reconstruction of C3 and C4 metabolism in Methylobacterium extorquens AM1 using transposon mutagenesis
The growth of Methylobacterium extorquens AM1 on C1 compounds has been well-studied, but little is known about how this methylotroph grows on multicarbon compounds. A Tn5 transposon mutagenesis procedure was performed to identify genes involved in the growth of M. extorquens AM1 on succinate and pyruvate. Of the 15 000 insertion colonies screened, 71 mutants were found that grew on methanol but either grew slowly or were unable to grow on one or both of the multicarbon substrates. For each of these mutants, the chromosomal region adjacent to the insertion site was sequenced, and 55 different genes were identified and assigned putative functions. These genes fell into a number of predicted categories, including central carbon metabolism, carbohydrate metabolism, regulation, transport and non-essential housekeeping functions. This study focused on genes predicted to encode enzymes of central heterotrophic metabolism: 2-oxoglutarate dehydrogenase, pyruvate dehydrogenase and NADH : ubiquinone oxidoreductase. In each case, the mutants showed normal growth on methanol and impaired growth on pyruvate and succinate, consistent with a role specific to heterotrophic metabolism. For the first two cases, no detectable activity of the corresponding enzyme was found in the mutant, verifying the predictions. The results of this study were used to reconstruct multicarbon metabolism of M. extorquens AM1 during growth on methanol, succinate and pyruvate.
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