Game Changer-Next Generation Sequencing and Its Impact on Food Microbiology Jennifer Ronholm, Sabah Bidawid, Sandra Torriani Frontiers Media SA, Apr 26, 2018 Advances in next-generation sequencing technologies (NGS) are revolutionizing the field of food microbiology. Microbial whole genome sequencing (WGS) can provide identification, characterization, and subtyping of pathogens for epidemiological investigations at a level of precision previously not possible. This allows for connections and source attribution to be inferred between related isolates that may be overlooked by traditional techniques. The archiving and global sharing of genome sequences allow for retrospective analysis of virulence genes, antimicrobial resistance markers, mobile genetic elements and other novel genes. The advent of high-throughput 16S rRNA amplicon sequencing, in combination with the advantages offered by massively parallel second-generation sequencing for metagenomics, enable intensive studies on the microbiomes of food products and the impact of foods on the human microbiome. These studies may one day lead to the development of reliable culture-independent methods for food monitoring and surveillance. Similarly, RNA-seq has provided insights into the transcriptomes and hence the behaviour of bacterial pathogens in food, food processing environments, and in interaction with the host at a resolution previously not achieved through the use of microarrays and/or RT-PCR. The vast un-tapped potential applications of NGS along with its rapidly declining costs, give this technology the ability to contribute significantly to consumer protection, global trade facilitation, and increased food safety and security. Despite the rapid advances, challenges remain. How will NGS data be incorporated into our existing global food safety infrastructure? How will massive NGS data be stored and shared globally? What bioinformatics solutions will be used to analyse and optimise these large data sets? This Research Topic discusses recent advances in the field of food microbiology made possible through the use of NGS. |
Contents
Game Changer Next Generation Sequencing and Its Impact on Food Microbiology | 7 |
Genomic Characterization of Dairy Associated Leuconostoc Species and Diversity of Leuconostocs in Undefined Mixed Mesophilic Starter Cultures | 10 |
Comparative Genomic Analysis Reveals Ecological Differentiation in the Genus Carnobacterium | 24 |
Genetic Characterization of the Exceptionally High Heat Resistance of the Nontoxic Surrogate Clostridium sporogenes PA 3679 | 38 |
Genotypes Associated with Listeria monocytogenes Isolates Displaying Impaired or Enhanced Tolerances to Cold Salt Acid or Desiccation Stress | 49 |
A GenomeWide Association Study to Identify Diagnostic Markers for Human Pathogenic Campylobacter jejuni Strains | 69 |
Evolution and Diversity of Listeria monocytogenes from Clinical and Food Samples in Shanghai China | 78 |
Genome Sequence of Vibrio parahaemolyticus VP152 Strain Isolated from Penaeus indicus in Malaysia | 87 |
Metagenomic Sequencing for Surveillance of Food and Waterborne Viral Diseases | 168 |
Characterization of the Genomic Diversity of Norovirus in Linked Patients Using a Metagenomic Deep Sequencing Approach | 179 |
Insights from HighThroughput Amplicon Sequencing | 193 |
Microbiome Approximations to Explain the terroir Concept | 208 |
A Perspective Study of Koumiss Microbiome by Metagenomics Analysis Based on SingleCell Amplification Technique | 220 |
Genotyping by PCR and HighThroughput Sequencing of Commercial Probiotic Products Reveals Composition Biases | 231 |
Characterization of Gut Microbiome Dynamics in Developing Pekin Ducks and Impact of Management System | 242 |
The Importance of Bacterial Culture to Food Microbiology in the Age of Genomics | 257 |
A SystOMICS Approach to Ensuring Food Safety and Reducing the Economic Burden of Salmonellosis | 91 |
The Validation and Implications of Using Whole Genome Sequencing as a Replacement for Traditional Serotyping for a National Salmonella Refere... | 99 |
Pangenome Analyses of the Species Salmonella enterica and Identification of Genomic Markers Predictive for Species Subspecies and Serovar | 108 |
Prophage Integrase Typing Is a Useful Indicator of Genomic Diversity in Salmonella enterica | 124 |
Temporal Genomic Phylogeny Reconstruction Indicates a Geospatial Transmission Path of Salmonella Cerro in the United States and a CladeSpecific ... | 135 |
The Next CultureIndependent Game Changer | 147 |
Harmonization of Critical Food Microbiology Descriptors and Metadata for Improved Food Safety and Surveillance | 263 |
Food Safety in the Age of Next Generation Sequencing Bioinformatics and Open Data Access | 274 |
The Public Health Impact of a Publically Available Environmental Database of Microbial Genomes | 284 |
A Comparative Analysis of the LyveSET Phylogenomics Pipeline for Genomic Epidemiology of Foodborne Pathogens | 288 |
Back Cover | 301 |
Common terms and phrases
16S rRNA acid amplicon analysis annotation Appl assay associated aviary bacterial Bacteroidetes bioinformatics Biol Bokulich Canada Carnobacterium cells Cerro clade Clin clinical Clostridium cluster coli compared contained core genome cremoris dairy database dataset detection diagnostic disease distribution or reproduction divergens diversity ducks encoding Enteritidis Environ environmental epidemiological fermentation Figure Firmicutes Food Microbiol Food Microbiology food safety genetic genomic islands genotype global human identified Illumina Infect integrase integrase genes isolates jejuni koumiss laboratories lactis Leuconostoc lineages Listeria monocytogenes Lyve-SET maltaromaticum markers mesenteroides metagenomic sequencing metagenomics methods microbial community MLST molecular norovirus nucleotide Ontology operon orthologous OTUs pan-genome phage phenotypic phylogenetic pipelines plasmid PLoS population potential predicted probiotic prophages proteins Proteobacteria pseudomesenteroides public health regions resistance Salmonella enterica samples sequence data serotype serovar silico SNPs species sporogenes starter cultures strains subspecies subtyping Supplementary surveillance Table tolerance viral virulence viruses whole genome sequencing wine