Donald T. Moir scite author profile

Helicobacter pylori, one of the most common bacterial pathogens of humans, colonizes the gastric mucosa, where it appears to persist throughout the host's life unless the patient is treated. Colonization induces chronic gastric inflammation which can progress to a variety of diseases, ranging in severity from superficial gastritis and peptic ulcer to gastric cancer and mucosal-associated lymphoma. Strain-specific genetic diversity has been proposed to be involved in the organism's ability to cause different diseases or even be beneficial to the infected host and to participate in the lifelong chronicity of infection. Here we compare the complete genomic sequences of two unrelated H. pylori isolates. This is, to our knowledge, the first such genomic comparison. H. pylori was believed to exhibit a large degree of genomic and allelic diversity, but we find that the overall genomic organization, gene order and predicted proteomes (sets of proteins encoded by the genomes) of the two strains are quite similar. Between 6 to 7% of the genes are specific to each strain, with almost half of these genes being clustered in a single hypervariable region.

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The yeast secretory pathway is perturbed by mutations in PMR1, a member of a Ca2+ ATPase family

Rudolph

Antebi

Fink

et al. 1989

Cell

529

488

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Characterization of the Surface Enhanced Raman Scattering (SERS) of Bacteria

et al. 2004

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The surface enhanced Raman scattering (SERS) of a number of species and strains of bacteria obtained on novel gold nanoparticle (approximately 80 nm) covered SiO(2) substrates excited at 785 nm is reported. Raman cross-section enhancements of >10(4) per bacterium are found for both Gram-positive and Gram-negative bacteria on these SERS active substrates. The SERS spectra of bacteria are spectrally less congested and exhibit greater species differentiation than their corresponding non-SERS (bulk) Raman spectra at this excitation wavelength. Fluorescence observed in the bulk Raman emission of Bacillus species is not apparent in the corresponding SERS spectra. Despite the field enhancement effects arising from the nanostructured metal surface, this fluorescence component appears "quenched" due to an energy transfer process which does not diminish the Raman emission. The surface enhancement effect allows the observation of Raman spectra of single bacterial cells excited at low incident powers and short data acquisition times. SERS spectra of B. anthracis Sterne illustrate this single cell level capability. Comparison with previous SERS studies reveals how the SERS vibrational signatures are strongly dependent on the morphology and nature of the SERS active substrates. The potential of SERS for detection and identification of bacterial pathogens with species and strain specificity on these gold particle covered glassy substrates is demonstrated by these results.

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Barcoding bacterial cells: a SERS‐based methodology for pathogen identification

Patel

Premasiri

Moir

et al. 2008

J Raman Spectroscopy

188

150

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A principal component analysis (PCA) based on the sign of the second derivative of the surface-enhanced Raman scattering (SERS) spectrum obtained on in situ grown Au-cluster-covered SiO 2 substrates results in improved reproducibility and enhanced specificity for bacterial diagnostics. The barcode-generated clustering results are systematically compared with those obtained from the corresponding spectral intensities, first derivatives and second derivatives for the SERS spectra of closely related cereus group Bacillus strains. PCA plots and the corresponding hierarchical cluster analysis (HCA) dendrograms illustrate the improved bacterial identification resulting from the barcode spectral data reduction. Supervised discriminant function analysis (DFA) plots result in slightly improved group separation but show more susceptibility to false positive classifications than the corresponding PCA contours. In addition, this PCA treatment is used to highlight the enhanced bacterial species specificity observed for SERS as compared to normal bulk (non-SERS) Raman spectra. The identification algorithm described here is critical for the development of SERS microscopy as a rapid, reagentless and portable diagnostic of bacterial pathogens.

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Discovery and Characterization of Inhibitors of Pseudomonas aeruginosa Type III Secretion

Aiello

Williams

Majgier‐Baranowska

et al. 2010

Antimicrob Agents Chemother

122

141

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The type III secretion system (T3SS) is a clinically important virulence mechanism in Pseudomonas aeruginosa that secretes and translocates up to four protein toxin effectors into human cells, facilitating the establishment and dissemination of infections. To discover inhibitors of this important virulence mechanism, we developed two cellular reporter assays and applied them to a library of 80,000 compounds. The primary screen was based on the dependence of the transcription of T3SS operons on the T3SS-mediated secretion of a negative regulator and consisted of a transcriptional fusion of the Photorhabdus luminescens luxCDABE operon to the P. aeruginosa exoT effector gene. Secondary assays included direct measurements of the T3SS-mediated secretion of a P. aeruginosa ExoS effector-␤-lactamase fusion protein as well as the detection of the secretion of native ExoS by the sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis of culture supernatants. Five inhibitors in three chemical classes were demonstrated to inhibit type III secretion selectively with minimal cytotoxicity and with no effects on bacterial growth or on the type II-mediated secretion of elastase. These inhibitors also block the T3SS-mediated secretion of a YopE effector-␤-lactamase fusion protein from an attenuated Yersinia pestis strain. The most promising of the inhibitors is a phenoxyacetamide that also blocks the T3SS-mediated translocation of effectors into mammalian cells in culture. Preliminary studies of structure-activity relationships in this phenoxyacetamide series demonstrated a strict requirement for the R-enantiomer at its stereocenter and indicated tolerance for a variety of substituents on one of its two aromatic rings.The type-three secretion system (T3SS) is a complex multiprotein apparatus that facilitates the secretion and translocation of effector proteins from the bacterial cytoplasm directly into the mammalian cytosol. This complex protein delivery device is shared by more than 15 species of gram-negative human pathogens, including Salmonella spp., Shigella flexneri, Pseudomonas aeruginosa, Yersinia spp., enteropathogenic and enteroinvasive Escherichia coli, and Chlamydia spp. (23,25,43). In the opportunistic pathogen P. aeruginosa, the T3SS is the major virulence factor contributing to the establishment and dissemination of acute infections (19). Four T3SS effectors have been identified in P. aeruginosa strains: ExoS, ExoT, ExoY, and ExoU. ExoS and ExoT are bifunctional proteins consisting of an N-terminal small G-protein-activating protein (GAP) domain and a C-terminal ADP ribosylation domain, ExoY is an adenylate cyclase, and ExoU is a phospholipase (reviewed in reference 11). In studies with strains producing each effector separately, ExoU and ExoS contributed significantly to persistence, dissemination, and mortality, while ExoT produced minor effects on virulence in a mouse lung infection model, and ExoY did not appear to play a major role in the pathogenesis of P. aeruginosa (51). While not a p...

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Donald T. Moir

Genomic-sequence comparison of two unrelated isolates of the human gastric pathogen Helicobacter pylori

The yeast secretory pathway is perturbed by mutations in PMR1, a member of a Ca2+ ATPase family

Characterization of the Surface Enhanced Raman Scattering (SERS) of Bacteria

Barcoding bacterial cells: a SERS‐based methodology for pathogen identification

Discovery and Characterization of Inhibitors of Pseudomonas aeruginosa Type III Secretion

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