Project description:Background: Members of E. coli serogroup O45 are porcine enteropathogenic E. coli (PEPEC) strains which cause post-weaning diarrhea and produce characteristic attaching and effacing (A/E) lesions. Most of O45 PEPEC strains possess the locus of enterocyte effacement (LEE), encoding the virulence factors for A/E lesions, and often possess the paa gene, which is thought to contribute to the early stages of PEPEC virulence. Methodology: Nine O45 PEPEC strains and a rabbit enteropathogenic (REPEC) strain, known to produce A/E lesions, were characterized using an E. coli O157-E. coli K12 whole genome microarray and a virulence gene-specific microarray, and by PCR experiments. Results: Based on their virulence genes profiles, the 10 strains were characterized as atypical EPEC. The differences in their genomes pointed to two distinct evolutionary groups of O45 PEPEC, Group I and Group II, and to the contribution these genetic differences have on virulence in pigs. Group I contained the REPEC strain and four O45 PEPEC strains known to induce severe A/E lesions in challenged pigs whereas Group II was composed of five other O45 PEPEC strains which induced less severe or no A/E lesions in challenged pigs. Significant differences between Groups I and II were found in the presence or absence of 50 O-Islands (OIs) or S-loops and 13 K-islands (KIs) or K-loops, including the virulence-associated islands OI#1 (S-loop#1), OI#47 (S-loop#71), OI#57 (S-loop#85), OI#71 (S-loop#108), OI#115, OI#122, and OI#154 (S-loop#253). 10 samples, with two microarrays per sample. Each microarray includes duplicates of every spot.

Project description:Transcriptionnal profiling of C. difficile R20291 strain : a wild type strain, a fliC mutant and a fliC mutant complemented after 14h of growth in PY and a wild type strain and a fliC mutant after 14h of mouse infection in Vivo two-conditions experiments, R20291 strain : a wild type strain, a fliC mutant and a fliC mutant complemented in Vitro and a wild type strain and a fliC mutant in Vivo, 4 biological replicates for each condition, in an direct design.

Project description:Mycobacterium tuberculosis, the causative agent of tuberculosis accounts for 1.5 million annual deaths worldwide. The two well-characterized strains of the parental H37 strain namely, H37Ra and H37Rv show different pathogenic phenotypes. In order to identify factors that are responsible for virulence, we compared the proteome and the phosphoproteome profiles of virulent (H37Rv) and virulence attenuated (H37Ra) strains of M. tuberculosis. Quantitative proteomic analysis resulted in the identification and quantitation of 2,709 proteins and 505 phosphosites. Comparative analysis revealed over 5-fold overexpression of several proteins associated with virulence. Our data indicates that there are definable molecular differences between H37Rv and H37Ra strains at both the proteome and phosphoproteome levels which may explain the virulence and phenotypic differences.

Project description:ASFV poses a continuing threat to the pig industry in Europe as broadly applicable vaccines are not available. Variations within the ASFV genome resulted in the emergence of attenuated strains with low or moderate virulence, however, the molecular basis of the differences in virulence is not known. To reveal virulence-associated protein expression patterns, we have analyzed the proteomes of the natural target cells of ASFV, primary porcine macrophages, after infection with two genotype II ASFV strains displaying high (“Armenia 2008”) and moderate (”Estonia 2014”) virulence using quantitative mass spectrometry. Very similar expression patterns were observed for the viral genes. In addition to the canonical ASFV proteins, twelve novel protein products from recently described transcripts could be confirmed in both isolates. Pathway analysis showed that both isolates evoked a similar host proteome response despite their difference in virulence. However, subtle differences in the manipulation of the proteins involved in the proinflammatory response mediated by the MAPK14/p38 signalling cascade were observed.

Project description:The human respiratory tract pathogen M. pneumoniae is one of the best characterized minimal bacterium. Until now, two main groups of clinical isolates of this bacterium have been described (types 1 and 2), differing in the sequence of the P1 adhesin gene. Here, we have sequenced the genomes of 23 clinical isolates of M. pneumoniae. Studying SNPs, non-synonymous mutations, indels and genome rearrangements of these 23 strains and 4 previously sequenced ones, has revealed new subclasses in the two main groups, some of them being associated with the country of isolation. Integrative analysis of in vitro gene essentiality and mutation rates enabled the identification of several putative virulence factors and antigenic proteins; revealing recombination machinery, glycerol metabolism and peroxide production as key factors in the genetics and physiology of these pathogenic strains. Additionally, the transcriptomes and proteomes of two representative strains, one from each of the two main groups, have been characterized to evaluate the impact of mutations on RNA and proteins levels. This study has revealed that type 2 strains show high expression levels of CARDs toxin, a protein recently shown to be one of the major factors of inflammation. Thus, we propose that type 2 strains are likely to be more virulent than type 1 strains.

Project description:<p>Studies have emphasized the importance of disease-associated microorganisms in perturbed communities, however, the protective roles of commensals are largely under recognized and poorly understood. Using acne as a model disease, we investigated the determinants of the overall virulence property of the skin microbiota when disease- and health-associated organisms coexist in the community. By ultra-deep metagenomic shotgun sequencing, we revealed higher relative abundances of propionibacteria and Propionibacterium acnes phage in healthy skin. In acne patients, the microbiome composition at the species level and at P. acnes strain level was more diverse than in healthy individuals, with enriched virulence-associated factors and reduced abundance of metabolic synthesis genes. Based on the abundance profiles of the metagenomic elements, we constructed a quantitative prediction model, which classified the clinical states of the host skin with high accuracy in both our study cohort (85%) and an independent sample set (86%). Our results suggest that the balance between metagenomic elements, not the mere presence of disease-associated strains, shapes the overall virulence property of the skin microbiota. This study provides new insights into the microbial mechanism of acne pathogenesis and suggests probiotic and phage therapies as potential acne treatments to modulate the skin microbiota and to maintain skin health.</p>

Project description:Quantitative variation of epigenetic marks, such as histone modifications, can modify gene expression and eventually contribute to inter-individual phenotypic variation. Our goal is to investigate natural inter-individual variation of the epigenome in a quantitative manner. To probe the degree of natural epigenomic diversity in S. cerevisiae, we compared two unrelated wild strains using replicated Mnase-seq and ChIP-seq profiling at mononucleosomal resolution for H3K14 acetylation.

Project description:Analysis of the changes in the transcriptome of two different Lactococcus garvieae strains (21881 & 8831) at different temperatures of growth (18/37 M-BM-:C) Reference design experiment comparing samples of 21881 and 8831 strains of Lactoccocus garvieae, with three biological replicates for each condition grown at 18 and 37 degrees Celsius. The results were referenced to a equimolar mixture of both strains grown at 29 degrees Celsius

Project description:The phytopathogen Pectobacterium wasabiae SCC3193 is a model for research on virulence regulation in soft rot pathogens. Two proteins acting as global regulators of the expression on genes involved in virulence in SCC3193 are ExpA, a DNA binding transcriptional regulator, and RsmA, an RNA binding post transcriptional regulator. Studies of related enterobacterial phytopathogens suggest that homologues of ExpA (GacA) affect gene expression partly by modulating RsmA-like protein activity. However, the exact extent of this regulon overlap has not been mapped. To elucidate the role of RsmA in ExpA controlled gene expression goes through RsmA in P. wasabiae we performed a gene expression microarray analysis of the wild type strain, an expA mutant, an rsmA mutant, and an expA rsmA double mutant. The microarray-based data of various virulence related genes was confirmed through quantitative RT-PCR. Subsequently, assays were made to link observed transcriptomic differences to changes in growth rate, PCWDE production, and virulence in planta between the four strains. We could conclude that the majority of ExpA regulation seems routed via RsmA modulation. However we could identify genes involved in electron transport, oligogalacturonide transport and metabolism, which ExpA seems to influence independently of RsmA, directly or indirectly. Gene expression analysis from P. wasabie SCC3193 wildtype, SCC3193 rsmA mutant, SCC3193 expA mutant and SCC3193 expA rsmA double mutant was performed on RNA samples extraxcted from the strains at late-logarithmic (late-log) and early stationary (stat) growth phase. Strains were grown in liquid hrp inducing minimal medium cultures supplemented with 0.4% polygalacturonic acid at 200 rpm shaking and 28 degrees celsius. Three biological replicates were used from each strain at each growth phase point.

Project description:Comparison of expression profiles of strains of Francisella to identify virulence factors We used custom microarrays to detail the global gene expression of four strains of Francisella (Schu4, LVS, OR960246, U112) and identified distinct classes of differentially expressed genes during this process. All the strains of Francisella were grown to optical density of 0.6 in a chemical defined medium and their expression profiles were compared.