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A Review on the Applications of Next Generation Sequencing Technologies as Applied to Food-Related Microbiome Studies
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2017
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fmicb-08-01829.pdf
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Cao Y, Fanning S, Proos S, Jordan K and Srikumar S (2017) A Review on the Applications of Next Generation Sequencing Technologies as Applied to Food-Related Microbiome Studies.Front. Microbiol. 8:1829. doi: 10.3389/fmicb.2017.01829
Abstract
The development of next generation sequencing (NGS) techniques has enabled
researchers to study and understand the world of microorganisms from broader and
deeper perspectives. The contemporary advances in DNA sequencing technologies have
not only enabled finer characterization of bacterial genomes but also provided deeper
taxonomic identification of complex microbiomes which in its genomic essence is the
combined genetic material of the microorganisms inhabiting an environment, whether
the environment be a particular body econiche (e.g., human intestinal contents) or a
food manufacturing facility econiche (e.g., floor drain). To date, 16S rDNA sequencing,
metagenomics and metatranscriptomics are the three basic sequencing strategies
used in the taxonomic identification and characterization of food-related microbiomes.
These sequencing strategies have used different NGS platforms for DNA and RNA
sequence identification. Traditionally, 16S rDNA sequencing has played a key role
in understanding the taxonomic composition of a food-related microbiome. Recently,
metagenomic approaches have resulted in improved understanding of a microbiome
by providing a species-level/strain-level characterization. Further, metatranscriptomic
approaches have contributed to the functional characterization of the complex
interactions between different microbial communities within a single microbiome. Many
studies have highlighted the use of NGS techniques in investigating the microbiome of
fermented foods. However, the utilization of NGS techniques in studying the microbiome
of non-fermented foods are limited. This review provides a brief overview of the advances
in DNA sequencing chemistries as the technology progressed from first, next and third
generations and highlights how NGS provided a deeper understanding of food-related
microbiomes with special focus on non-fermented foods.