Project description:The glycopeptide vancomycin is a drug of choice for the treatment of severe non-gastrointestinal infections with members of Bacillus cereus sensu lato. Recently, sporadic detection of vancomycin resistant phenotypes emerged, mostly for agar diffusion testing. The food packaging isolate BC70 displayed a pseudo-resistant phenotype for vancomycin in both Etest and disk diffusion. In this work, we used RNA-Seq on the nanopore platform to study differentially expressed genes in BC70 cells, which were able to actively move into the inhibition zone during vancomycin susceptibility testing using Etest and therefore appeared to be resistant. Transcriptomic analysis revealed several key genes of biofilm formation (e.g. calY, tasA, krsEABC) to be upregulated in pseudo-resistant cells suggesting a biofilm-related mechanism of motility. Downregulation of virulence (e.g. hblABCD, nheABC, plcR) and flagellar genes compared to swarming cells also confirmed the non-swarming phenotype of the pseudo-resistant isolate. This type of biofilm-related motility was distinct from swarming motility and joined the list of bacterial strategies interfering with reliable antimicrobial susceptibility testing.

Project description:GenomeTrakr Project: US Food and Drug Administration, Center for Food Safety and Applied Nutrition

Project description:Soil microorganism that can cause food poisoning

Project description:Comparative Genomic Hybridization. Analysis of genomic content of closely related Bacillus species. Refer to individual records for strain information. Refer to platform and individual sample records for experimental protocols. Keywords: other

Project description:Bacillus cereus Genome sequencing and assembly from Korean Fermented Food

Project description:The aim of the study was to carry out a CGH study utilizing a set of 39 diverse Bacillus isolates. Thirty four B. cereus and five B. anthracis strains and isolates were chosen so as to represent different lineages based on previous characterizations, including MLEE and MLST (Helgason, Okstad et al. 2000; Helgason, Tourasse et al. 2004). They represent the spectrum of B. cereus phenotypic diversity by including soil, dairy and periodontal isolates in addition to virulent B. anthracis strains.

Project description:Bacillus cereus is the second leading cause of collective food poisoning in France. B. cereus is also associated with severe clinical infections leading to patient death in 10% of the cases. The emergence of B. cereus as a foodborne and opportunistic pathogen has intensified the need to distinguish strains of public health concern. In this work, by performing a screen on a large collection of B. cereus strains of varying pathogenic potential, we identified genetic determinants capable of discriminating B. cereus strains inducing negative clinical outcomes. The combination of 4 biomarkers is sufficient to accurately discern clinical strains from harmless strains. Three of the biomarkers are located on the chromosome, with a fourth one identifying a plasmid carried by most pathogenic strains. A 50 kbp region of this plasmid promotes the virulence potential of these strains and could thus be defined as a new pathogenicity island of B. cereus. These new findings help in the understanding of B. cereus pathogenic potential and complexity and may provide tools for a better assessment of the risks associated with B. cereus contamination to improve patient health and food safety.

Project description:Draft Genome Sequences of Eight Spore- Forming Food Isolates of Bacillus cereus Genome sequencing

Project description:Bacillus cereus isolate:cereus Genome sequencing

Project description:The goal of this study is the discovery of (a) meaningful phylogenomic relationships among members of this B. cereus/B. anthracis group, and (b) reliable gene-phenotype associations, e.g. recognition of links between genomic traits and the ability of certain strains to cause various forms of disease. We also tried to elucidate genome evolution aspects that may lead to the emergence of variants that are capable (or have the potential) of causing anthrax-like disease. This large-scale comparative genomics approach is unprecedented for this taxonomic group. Dr. A. Hoffmaster (CDC) provided the PFGRC with 73 B. cereus and B. anthracis isolates from the CDC culture collection. Of these, 27 were isolated from patients with severe or systemic disease; ten isolates of this group were obtained from patients (welding factory workers) with anthrax-like disease or from the environment near their workplace. Another set of 26 represented isolates from food-born illnesses. Of the 26 gastrointestinal disease isolates (GIDI), 10 were obtained from patients with diarrhea, whereas another set of 10 had been shown to harbor the emetic (vomit) toxin gene by PCR. The rest of the group consisted of 20 isolates with various phenotypes. All strains were screened for their genomic content using the B. cereus/B. anthracis species microarray.