Molecular Identification and Characterization of Bacterial and Viral Pathogens Associated with Foods

<p>The overall objective of this project is to develop novel typing methods to identify foodborne pathogens and characterize: bacterial foodborne pathogens through genomics, transcriptomics and proteomics; virulence factors and bacterial toxins; and antibiotic resistance in food production. Specifically, during the next five years we will focus on the following objectives: Objective 1: Develop improved identification technologies for human bacterial and viral pathogens to replace current testing methodologies. Sub-objective 1A: Develop a fast, simple and high throughput array-based method fortyping pathogens. Sub-objective 1B: Validate the array genotyping tool for the identification of viral and bacterial pathogens in samples from agricultural environments. Sub-objective 1C: Develop novel Campylobacteraceae species identification methods. Objective 2: Identify and characterize genetic factors associated with virulence and/or environmental adaptation of human bacterial pathogens using genomic, transcriptional and proteomic analyses. Sub-objective 2A: Identify the transcriptional network patterns of bacterial pathogens during environmental adaptation and modulation of their stress response. Sub-objective 2B: Identify genes involved in host/environmental adaptation and investigate variation in virulence potential through in-depth genome sequencing of selected taxa. Sub-objective 2C: Identify the genetic and epigenetic alterations or factors involved in the environmental adaptation of foodborne pathogens through genomic and methylome analyses. Sub-objective 2D: Quantitative proteomic and transcriptomic analysis of virulence factors of foodborne pathogens can be used to elucidate transcriptional vs. posttranscriptional control of virulence in foodborne pathogens. Sub-objective 2E: Top-down proteomic characterization of bacterial virulence proteins or toxins. Objective 3: Characterize molecular mechanisms contributing to the potency of bacterial toxins. Sub-objective 3A: Identification and characterization of Shiga toxin 2 (Stx2) subtypes in environmental STEC strains. Sub-objective 3B: Characterization of Stx2 expression levels and functional activities in environmental STEC strains. Sub-objective 3C: Characterization of pathogenic mechanisms associated with Stx2 subtypes produced by E. coli strains. Sub-objective 3D: Investigate toxin-inactivation mechanisms by natural plant compounds. Objective 4: Identify antimicrobial resistance gene reservoirs in the food production ecosystem and characterize the fitness and virulence of resistant pathogens. Sub-objective 4A: Complete genomic sequencing and functional metagenomic analyses of antibiotic-resistant Campylobacter. Sub-objective 4B: Characterization of the fitness and virulence of antimicrobial-resistant Campylobacter jejuni and Campylobacter coli.</p>