Microbial DNA Sequencing in Environmental Studies

Hu, Yue

January 2017

The field of microbial ecology has just entered a new era of rapid technological development and generation of big data. The high-throughput sequencing techniques presently available provide an opportunity to extensively inventorize the blueprints of life. Now, millions of microbes of natural microbial communities can be studied simultaneously without prior cultivation. New species and new functions (genes) can be discovered just by mining sequencing data. However, there is still a tremendous number of microorganisms not yet examined, nor are the ecosystem functions these carry out. The modern genomic technologies can contribute to solve environmental problems and help us understand ecosystems, but to most efficiently do so, methods need to be continuously optimised.   During my Ph. D. studies, I developed a method to survey eukaryotic microbial diversity with a higher accuracy, and applied various sequencing-based approaches in an attempt to answer questions of importance in environmental research and ecology. In PAPER-I, we developed a set of 18S rRNA gene PCR primers with high taxonomic coverage, meeting the requirements of currently popular sequencing technologies and matching the richness of 18S rRNA reference sequences accumulated so far. In PAPER-II, we conducted the first sequencing-based spatial survey on the combined eukaryotic and bacterial planktonic community in the Baltic Sea to uncover the relationship of microbial diversity and environmental conditions. Here, the 18S primers designed in PAPER-I and a pair of broad-coverage 16S primers were employed to target the rRNA genes of protists and bacterioplankton for amplicon sequencing. In PAPER-III, we integrated metagenomic, metabarcoding, and metatranscriptomic data in an effort to scrutinise the protein synthesis potential (i.e., activity) of microbes in the sediment at a depth of 460 m in the Baltic Sea and, thus, disclosing microbial diversity and their possible ecological functions within such an extreme environment. Lastly, in PAPER-IV, we compared the performance of E. coli culturing, high-throughput sequencing, and portable real-time sequencing in tracking wastewater contamination in an urban stormwater system. From the aspects of cost, mobility and accuracy, we evaluated the usage of sequencing-based approaches in civil engineering, and for the first time, validated the real-time sequencing device in use within water quality monitoring.   In summary, these studies demonstrate how DNA sequencing of microbial communities can be applied in environmental monitoring and ecological research. / <p>Yue Hu was supported by a scholarship from the China Scholarship Council (CSC #201206950024)</p><p>Yue Hu has been publishing papers under the name "Yue O. O. Hu".</p><p>QC 20170403</p>

Microbiology

Mikrobiologi

Civil Engineering

Samhällsbyggnadsteknik

Ecology

Ekologi

Bioinformatics and Systems Biology

Bioinformatik och systembiologi

Identification et caractérisation des protéines responsables de l’entrée en phase M chez Lingulodinium polyedrum

Daoust, Philippe

03 1900

Les dinoflagellés sont des eucaryotes unicellulaires qui composent une grande partie du phytoplancton et qui jouent un rôle important au niveau de la photosynthèse, de la production primaire et de la conservation des écosystèmes marins. Les dinoflagellés se distinguent des autres eucaryotes par leur biologie et leur organisation nucléaire unique. Lors de la mitose, leur membrane nucléaire demeure intacte et la ségrégation des chromosomes se fait à partir de fuseaux mitotiques formés dans le cytoplasme et qui traversent le noyau au travers de canaux spécialisés Aussi, leurs chromosomes sont condensés en permanence et le processus utilisé pour y arriver est encore très mal compris puisque les dinoflagellés ne possèdent aucunes histones détectables. Lingulodinium polyedrum est un dinoflagellé photosynthétique marin utilisé comme organisme modèle en ce qui concerne l’étude des rythmes circadiens (bioluminescence, migration verticale, mitose et photosynthèse). La découverte et l’étude des éléments régulateurs du cycle cellulaire peuvent nous amener à comprendre le mécanisme, l’influence et la portée du contrôle circadien sur le cycle cellulaire. De plus, l’étude du cycle cellulaire pourrait permettre de révéler des indices quant aux caractéristiques singulières des dinoflagellés qui sont pour le moment énigmatiques. Par le passé, une étude chez Lingulodinium polyedrum a permis d’identifier la cycline impliquée dans la mitose, LpCyc1, le premier régulateur du cycle cellulaire a être découvert chez les dinoflagellés. La présente étude s’attarde sur la caractérisation de la LpCyc1, soit son expression, sa localisation, sa phosphorylation. Ces trois éléments concordent de façon à synchroniser l’activité de la LpCyc1 (et ainsi la mitose) de façon circadienne. Cette étude présente aussi la création et le développement d’un outil majeur pour l’étude future de Lingulodinium polyedrum, le transcriptome des ARNm à partir d’un iv séquençage Illumina. C’est d’ailleurs avec cet outil que nous avons découvert la CDK responsable du contrôle de la phase M, LpCdk1. Cette CDK possède tous les domaines d’une CDK classique, un site de liaison des substrats, un site de liaison à l’ATP, une boucle activatrice, et une interface de liaison avec la cycline. Le transcriptome de Lingulodinium polyedrum a aussi permis de recenser toutes les protéines conservées normalement retrouvées dans le contrôle du cycle cellulaire, qui nous a permis de faire une ébauche préliminaire du cycle cellulaire de L. polyedrum. Cette analyse est une première chez Lingulodinium polyedrum et peut s’étendre pour l’étude d’une multitude d’autres processus métaboliques. / Dinoflagellates are unicellular eukaryotes that constitute a large part of the phytoplankton. They are major contributors to the global photosynthesis and primary production and they possess an important role in conservation of marine ecosystems. Dinoflagellates are distincted from other eukaryotes by their unique biology and nuclear organization. During mitosis, their nuclear envelope stays intact and chromosome segregation is done by a mitotic spindle that passed through the nucleus inside several specialized cytoplasmic channels. In addition, the chromosomes are permanently condensed and are not thought to have histones. Lingulodinium polyedrum is a marine photosynthetic dinoflagellate widely used to study the control mechanisms of circadian rhythms, because many aspects of its physiology (bioluminescence, mitosis, photosynthesis and vertical migration) are circadian. The discovery of cell cycle regulators is essential for understanding the mechanism and the circadian control over the cell cycle. A previously study identified the M-phase cyclin, LpCyc1, the first dinoflagellate cell cycle regulator to be discovered. The present study presents the characterization of the LpCyc1, with respect to expression levels and phosphorylation patterns. These elements act together to ensure the synchronization of the LpCyc1 activity (and the mitosis) within the day. This study also presents the creation and the development of the transcriptome, a major tool for the upcoming studies of Lingulodinium polyedrum. With this tool, we identified the Lingulodinium polyedrum M-CDK, LpCdk1. The LpCdk1 has all the domains of a classic M-CDK, a substrate binding site, an ATP binding site, an activation loop and a cyclin binding interface. vi With the Lingulodinium polyedrum transcriptome, we also made a census of all the conserved proteins normally found in the cell cycle control of yeast. The identification of these proteins had provided a rough shape of L. polyedrum cell cycle. This kind of analysis is the first to be made with Lingulodinium polyedrum and could be expanded to other metabolic processes.

Lingulodinium polyedrum

Dinoflagellé

Cycle cellulaire

Rythme circadien

Mitose

CDK

LpCyc1

Illumina

Transcriptome

Dinoflagellates

Cell cycle

Circadian rythm

Mitosis

Mikrobiální společenstva a metagenom průmyslově znečištěných půd: výskyt genů kódujících AEH / Microbial consortia and metagenome of industrially polluted soil: occurrence of genes encoding AEH

Pitkina, Anastasiya

January 2015

Soils contain highly diverse consortia of bacteria making them very attractive starting points for both culture-dependent and metagenomic discovery efforts. The present diploma thesis analyses the composition of the microbial community from pharmaceutically polluted soil, with the employment of next-generation Illumina sequencing of 16S rDNA region. This analysis revealed high complexity of the soil microbial environment and confirmed that anthropogenic activity (represented by production of beta- lactam antibiotics) influences the variability and abundance of the species, yet without reducing the microbial diversity. In the second part of the thesis, isolation and heterologous expression of a novel gene encoding alpha-amino acid ester hydrolase (AEH) from a cultivable soil microorganism B. cereus is described. AEHs possess industrial potential for biocatalytic synthesis of semi-synthetic beta-lactam antibiotics, which are presently of great clinical importance. Powered by TCPDF (www.tcpdf.org)

Ecology and reproduction of neotropical soil-feeding termites from the Termes group

Hellemans, Simon

24 April 2019

The traditional view of a lifelong monogamy between a king and a queen has recently been challenged in termites. In several species, multiple parthenogenetically-produced secondary queens replace the primary queen and mate with the primary king; this strategy is referred to as “Asexual Queen Succession” (AQS). The aim of my thesis was to investigate the modalities of reproduction and the ecology of neotropical soil-feeding termites from the Termitinae, with a focus on the inquiline termite Cavitermes tuberosus in the Termes group.In the first axis, we investigated the modalities of reproduction of C. tuberosus. (i) AQS is the main reproductive strategy of this species. (ii) The evolution of AQS requires the propensity of parthenogens to develop into neotenic queens. In C. tuberosus, secondary queens develop from a developmental stage of “aspirants” which participate to the social tasks usually undertaken by workers, as long as the primary queen is alive. (iii) In AQS species, a female-biased sex ratio is expected in the dispersing reproductives. In C. tuberosus, sex ratio varies among years and according to the type of reproductives, and the population sex ratio is balanced. These results raise hints on queen-king conflict over the sex ratio.In the second axis, we described the ecology and symbioses of C. tuberosus. (iv) Wolbachia, an endosymbiotic bacterium mainly known for manipulating the reproduction of arthropods in order to enhance its own transmission, infects all individuals in societies. This bacterium, particularly abundant in a gut-associated bacteriome, may play a role in the nutrition of C. tuberosus; both partners would have evolved a mutualistic symbiosis. (v) Inquiline termites live in a nest built by other termite species and do not forage outside. Physico-chemical measures and microbiota sequencing revealed that C. tuberosus is a generalist nest-feeder.Finally, we expanded our study of the breeding systems in the phylogenetic proximity of C. tuberosus. (vi) We described Palmitermes impostor, a new genus and species as a sister-group to the genus Cavitermes. (vii) AQS is the main reproductive strategy in P. impostor, and queens of Spinitermes trispinosus and Inquilinitermes inquilinus are able to reproduce parthenogenetically. Therefore, it appears likely that the conditional use of sexual and asexual reproductions is a preadaptation common to the whole Termes group, and that it evolved into a stable element of their breeding system at least in some species.Overall, our results open new perspectives in the understanding of reproductive strategies in termites and their relationships with their bacterial symbionts. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Isoptera

Termitinae

Cavitermes tuberosus

Asexual Queen Succession

Parthenogenesis

Sex ratio

Ecology

Inquilinism

Symbioses

Wolbachia

Microbiota

Microsatellites

Morphometry

Isotopes

Sanger sequencing

Illumina sequencing

Transcriptomic analysis using high-throughput sequencing and DNA microarrays

Fox, Samuel E.

25 August 2011

Transcriptomics and gene expression profiling enables the elucidation of the genetic response of an organism to various environmental cues. Transcriptomics enables the deciphering of differences between two closely related organisms to the same environment and in contrast, enables the elucidation of genetic responses of the same organism to different environmental cues. Two major methods are utilized for the study of transcriptomes, high-throughput sequencing and microarray analysis. High-throughput sequencing technologies such as the Illumina platform are relatively new and protocols must be developed for the analyses of transcriptomes (RNA-sequencing). A RNA-seq protocol was developed and refined for the Illumina sequencing platform. This protocol was then utilized for the de novo sequencing of the steelhead salmon transcriptome. Hatchery steelhead exhibit a reduced fitness compared to wild steelhead that has been shown to be genetically based. Consequently, the steelhead transcriptome was assembled, annotated, and used to identify gene expression differences between hatchery and wild fish. We uncovered many differentially expressed genes involved in metabolic processes and growth and development. This work has created a better understanding of the genetic differences between hatchery and wild steelhead salmon. Brachypodium distachyon is a monocot grass important as a model for cereal crops and potential biofuels feedstocks. To better understand the genetic response of this plant to different environmental cues, a comprehensive assessment of the transcriptomic response was conducted under a variety of conditions including diurnal/circadian light/dark/temperature environments and different abiotic stress conditions. Using a whole-genome tiling DNA microarray, we identified that the majority of transcripts in Brachypodium exhibit a daily rhythm in their abundance that is conserved between rice and Brachypodium. We also identified numerous cis-regulatory elements dictating these rhythmic expression patterns. We also identified the genetic response to abiotic stresses such as salinity, drought, cold, heat, and high light. We uncovered a core set of genes which responds to all stresses, indicating a core stress response. A large number of transcription factors were uncovered as potential nodes for regulating the abiotic stress response in Brachypodium. Moreover, promoter elements that drive specific responses to discrete abiotic stresses were uncovered. Altogether, the transcriptome analyses in this work furthers our understandings of how particular organisms respond to environmental cues and better elucidates the relationship between genes and the environment. / Graduation date: 2012 / Access restricted to the OSU Community at author's request from Oct. 5, 2011 - April 5, 2012.

Brachypodium distachyon

steelhead

genomics

transcriptomics

RNA-seq

Illumina

microarray

Oncorhynchus mykiss

Genomics

Genotype-environment interaction

Nucleotide sequence

Steelhead (Fish) -- Genetics

Brachypodium -- Genetics

Identification et caractérisation des protéines responsables de l’entrée en phase M chez Lingulodinium polyedrum

Daoust, Philippe

03 1900

Les dinoflagellés sont des eucaryotes unicellulaires qui composent une grande partie du phytoplancton et qui jouent un rôle important au niveau de la photosynthèse, de la production primaire et de la conservation des écosystèmes marins. Les dinoflagellés se distinguent des autres eucaryotes par leur biologie et leur organisation nucléaire unique. Lors de la mitose, leur membrane nucléaire demeure intacte et la ségrégation des chromosomes se fait à partir de fuseaux mitotiques formés dans le cytoplasme et qui traversent le noyau au travers de canaux spécialisés Aussi, leurs chromosomes sont condensés en permanence et le processus utilisé pour y arriver est encore très mal compris puisque les dinoflagellés ne possèdent aucunes histones détectables. Lingulodinium polyedrum est un dinoflagellé photosynthétique marin utilisé comme organisme modèle en ce qui concerne l’étude des rythmes circadiens (bioluminescence, migration verticale, mitose et photosynthèse). La découverte et l’étude des éléments régulateurs du cycle cellulaire peuvent nous amener à comprendre le mécanisme, l’influence et la portée du contrôle circadien sur le cycle cellulaire. De plus, l’étude du cycle cellulaire pourrait permettre de révéler des indices quant aux caractéristiques singulières des dinoflagellés qui sont pour le moment énigmatiques. Par le passé, une étude chez Lingulodinium polyedrum a permis d’identifier la cycline impliquée dans la mitose, LpCyc1, le premier régulateur du cycle cellulaire a être découvert chez les dinoflagellés. La présente étude s’attarde sur la caractérisation de la LpCyc1, soit son expression, sa localisation, sa phosphorylation. Ces trois éléments concordent de façon à synchroniser l’activité de la LpCyc1 (et ainsi la mitose) de façon circadienne. Cette étude présente aussi la création et le développement d’un outil majeur pour l’étude future de Lingulodinium polyedrum, le transcriptome des ARNm à partir d’un iv séquençage Illumina. C’est d’ailleurs avec cet outil que nous avons découvert la CDK responsable du contrôle de la phase M, LpCdk1. Cette CDK possède tous les domaines d’une CDK classique, un site de liaison des substrats, un site de liaison à l’ATP, une boucle activatrice, et une interface de liaison avec la cycline. Le transcriptome de Lingulodinium polyedrum a aussi permis de recenser toutes les protéines conservées normalement retrouvées dans le contrôle du cycle cellulaire, qui nous a permis de faire une ébauche préliminaire du cycle cellulaire de L. polyedrum. Cette analyse est une première chez Lingulodinium polyedrum et peut s’étendre pour l’étude d’une multitude d’autres processus métaboliques. / Dinoflagellates are unicellular eukaryotes that constitute a large part of the phytoplankton. They are major contributors to the global photosynthesis and primary production and they possess an important role in conservation of marine ecosystems. Dinoflagellates are distincted from other eukaryotes by their unique biology and nuclear organization. During mitosis, their nuclear envelope stays intact and chromosome segregation is done by a mitotic spindle that passed through the nucleus inside several specialized cytoplasmic channels. In addition, the chromosomes are permanently condensed and are not thought to have histones. Lingulodinium polyedrum is a marine photosynthetic dinoflagellate widely used to study the control mechanisms of circadian rhythms, because many aspects of its physiology (bioluminescence, mitosis, photosynthesis and vertical migration) are circadian. The discovery of cell cycle regulators is essential for understanding the mechanism and the circadian control over the cell cycle. A previously study identified the M-phase cyclin, LpCyc1, the first dinoflagellate cell cycle regulator to be discovered. The present study presents the characterization of the LpCyc1, with respect to expression levels and phosphorylation patterns. These elements act together to ensure the synchronization of the LpCyc1 activity (and the mitosis) within the day. This study also presents the creation and the development of the transcriptome, a major tool for the upcoming studies of Lingulodinium polyedrum. With this tool, we identified the Lingulodinium polyedrum M-CDK, LpCdk1. The LpCdk1 has all the domains of a classic M-CDK, a substrate binding site, an ATP binding site, an activation loop and a cyclin binding interface. vi With the Lingulodinium polyedrum transcriptome, we also made a census of all the conserved proteins normally found in the cell cycle control of yeast. The identification of these proteins had provided a rough shape of L. polyedrum cell cycle. This kind of analysis is the first to be made with Lingulodinium polyedrum and could be expanded to other metabolic processes.

Lingulodinium polyedrum

Dinoflagellé

Cycle cellulaire

Rythme circadien

Mitose

CDK

LpCyc1

Illumina

Transcriptome

Dinoflagellates

Cell cycle

Circadian rythm

Mitosis

Molecular methods for evaluating the human microbiome

Kennedy, Katherine Margaret

January 2014

In human microbiome analysis, sequencing of bacterial 16S rRNA genes has revealed a role for the gut microbiota in maintaining health and contributing to various pathologies. Novel community analysis techniques must be evaluated in terms of bias, sensitivity, and reproducibility and compared to existing techniques to be effectively implemented. Next- generation sequencing technologies offer many advantages over traditional fingerprinting methods, but this extensive evaluation required for the most efficacious use of data has not been performed previously. Illumina libraries were generated from the V3 region of the 16S rRNA gene of samples taken from 12 unique sites within the gastrointestinal tract for each of 4 individuals. Fingerprint data were generated from these samples and prominent bands were sequenced. Sequenced bands were matched with OTUs within their respective libraries. The results demonstrate that denaturing gradient gel electrophoresis (DGGE) represents relatively abundant bacterial taxa (>0.1%) beta-diversity of all samples was compared using Principal Coordinates Analysis (PCoA) of UniFrac distances and Multi-Response Permutation Procedure (MRPP) was applied to measure sample cluster strength and significance; indicator species analysis of fingerprint bands and Illumina OTUs were also compared. The results demonstrate overall similarities between community profiling methods but also indicate that sequence data were not subject to the same limitations observed with the DGGE method (i.e., only abundant taxa bands are resolved, unable to distinguish disparate samples). In addition, the effect of stochastic fluctuations in ???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? differ for DGGE and next-generation sequencing. I compared pooled and individual reactions for samples of high and low template concentration for both Illumina and DGGE using the combined V3-V4 region of the 16S rRNA gene, and demonstrated that template concentration has a greater impact on reproducibility than pooling. This research shows congruity between two disparate molecular methods, identifies sources of bias, and establishes new guidelines for minimizing bias in microbial community analyses.

microbiome

human microbiome

DGGE

denaturing gradient gel electrophoresis

Illumina

gut microbiome

NGS

next generation sequencing

MRPP

NMS

CM2BL

16S

PCoA

PCR drft

Porovnání ITS nrDNA a alternativních markerů pro metabarcoding hub v environmentálních vzorcích / Comparison of ITS nrDNA and alternative markers for fungal metabarcoding in environmental samples

Zelenka, Tomáš

January 2015

The study of fungal diversity may lead to many fundamental discoveries and conclusions. Molecular genetics, and particularly high throughput sequencing methods using short DNA fragments as barcodes, has recently experienced a boom. The most frequently used marker for fungal research is the partial region of nuclear ribosomal DNA called ITS (Internal Transcribed Spacer). It occurs in the form of tandem repetitions of up to 200 copies. This fact greatly simplifies its amplification from the environment but also introduces some negatives. One of them can be an existence of intragenomic and intraspecific variability which confounds diversity estimates by exaggerating the real number of species. Using alternative low-copy markers can easily prevent these problems. In this study EF-1α and RPB2 protein- coding genes were compared with traditionally used ITS1 and ITS2 markers. An artificial mock community was created by blending genomic DNA of different fungal lineages. The community was sequenced for all markers and the data were processed according to guidelines commonly used in environmental studies. The results show that ITS2 is unequivocally a more suitable marker for environmental studies than other compared markers. The average coefficient of overestimation was deemed to be approximately two for ITS1, ITS2,...

Využití mikrobiálních komunit jako markeru podmínek v podzemních biotopech / Use of microbial community structure as a marker of conditions in underground biotops

Burkartová, Kateřina

January 2017

The amount of data obtained by barcoding of prokaryotic 16S rDNA from natural habitats is increasing exponentially. Thus, methods enabling us to extract useful information from these data are of increasing importance. In this thesis microbial communities from water, sludge and drilling dust were analyzed by 16S rDNA sequencing in three geologically well described sedimentary aquifers in Bohemian Massif. The main goal of this research was to establish how different analytical approaches can be useful in interpretation of groundwater biogeochemical processes. Three approaches were used: First, taxonomy and metabolic traits of the most abundant microorganisms were assessed. Second, ordination methods showing metabolic and taxonomic variability between communities were used. Last the analysis of phylogenetic dissimilarity using UniFrac metrics was performed. When analyzing individual localities separately, the shift in microbial community composition corresponds with the change of environmental conditions. The unconstrained ordination method based on the variability in metabolic traits indicated, that sludge samples are more informative than water samples when asking which electron donor is used in microbial communities. On the other hand, unconstrained ordination methods were useless when the...

DNA metabarcoding for the identification of species within vegetarian food samples

De Jager, Megan Dawn

January 2021

>Magister Scientiae - MSc / Aims DNA metabarcoding has recently emerged as a valuable supplementary tool to ensure food authenticity within the global food market. However, it is widely known that highly processed food samples are one of DNA metabarcoding’s greatest shortfalls due to high DNA degradation, presence of PCR inhibitors and the incomplete removal of several undesirable compounds (such as polysaccharides) that makes the amplification of desired DNA challenging. This project has two main aims, the first of which was to determine and develop a cost and time effective DNA metabarcoding system that could successfully describe to species level the ingredient composition of highly processed vegetarian food products. The DNA metabarcoding system was thoroughly evaluated and tested by combining well-researched primers with varying concentrations into a multiplex reaction. The combination of plant and animal primers selected that yielded the best results were used to determine the species composition in the samples. The second aim is to determine the possible presence of meat contaminants within the highly processed vegetarian food samples. Numerous studies have shown that food adulteration is a wide-spread phenomenon throughout the world due to the economic gains it can provide. Animal primers were introduced into the multiplex reaction to aid in the identification of any meat products that could have been inserted into the vegetarian products to lower the overall cost to company. Methodology Thirty-two highly processed vegetarian food samples were collected in the Cape Town area from local and franchised supermarkets. DNA was extracted using the Chloroform/Isoamyl alcohol method best suited for plant-based samples followed by amplification of the following mini-barcoding regions: the mitochondrial 16S ribosomal rRNA, cytochrome B, tRNALeu – trnL – UAA intron and the ribosomal internal transcribed spacer region – ITS2 for plant and fungi identification. The PCR products were purified using the Qiaquick kit and library preparation and building was conducted using the TruSeq DNA PCR-free Library kit. Final purification was completed using AMPure XP kit and the pooled libraries were sequenced on an Illumina Miseq using 300bp paired-end run. Statistical and bioinformatic analysis on the NGS raw sequence reads was performed in R version 3.6.3. Results The results of the data analysis showed that the cytochrome B primer couldn’t detect any animal DNA in the vegetarian samples, however animal-derived sequences were detected in the positives present, validating the efficacy of the multiplex reaction. Mitochondrial 16S ribosomal rRNA was only able to detect plant-based DNA due to the structural homology between chloroplast and mitochondrial DNA. The fungal ribosomal internal transcribed spacer region – ITS2 detected sequences deriving from “Viridiplantae”. This result could have been due to the fungal and plant ribosomal internal transcribed spacer region – ITS2 sharing a reverse primer during amplification. The trnL region was able to detect the presence of undeclared coriander, mustard and wheat in 8 (29%), 6 (21%) and 5 (18%) samples respectively. Additionally, trnL was able to detect the presence of tobacco in 11 (35%) samples. This could have been due to cross-contamination between samples being co-extracted and amplified at the same time for separate studies. The PITS2 region was able to detect the presence of undeclared barley, mustard and wheat in 8 (25%), 4 (14%) and 4 (14%) samples respectively. Our results show the possibility of DNA metabarcoding for the authentication of a wide range of species present in highly processed vegetarian samples using a single assay. However, further optimization of the technique for the identification of both plant and animal species within vegetarian samples needs to be performed before the wide-spread implementation of this technology would be both feasible and viable. Eliminating primer biases, decreasing the risk of homology between different primers in the same assay as well as preventing the amplification of sequencing of undesirable DNA need to be further explored and ultimately mitigated before DNA metabarcoding can be widely seen as an effective and cost-effective method for authentication and food control.

Food Authentication

DNA Metabarcoding

DNA Extraction

Polymerase Chain

Reaction Multiplex reaction

Next Generation Sequencing

High-throughput Sequencing

Library building

Illumina sequencing by synthesis

Bioinformatics

Species identification