Triagem funcional de genes envolvidos no processo de manutenção da inativação do cromossomo X em humanos / Functional screening of genes involved in the maintenance of X chromosome inactivation in humans

Vergani, Naja

01 April 2014

A compensação da dosagem gênica entre fêmeas XX e machos XY em mamíferos é adquirida através de um complexo mecanismo epigenético que resulta na inativação de grande parte de um dos cromossomos X nas células femininas. O processo de inativação do cromossomo X (XCI) se inicia cedo durante a embriogênese, concomitantemente à diferenciação celular, e envolve a aquisição de modificações epigenéticas características do cromossomo X inativo (Xi). Uma estabelecido, o padrão de inativação é estavelmente mantido através de todas as mitoses celulares subsequentes e por toda a vida do organismo (exceto para células germinativas que sofrem reativação do Xi). Os mecanismos envolvidos na iniciação e estabelecimento da XCI foram extensivamente estudados, especialmente em camundongos. Embora algumas características epigenéticas associadas à manutenção da XCI tenham sido descritas, a identidade e modo específico de ação de fatores envolvidos durante essa fase da XCI são aspectos ainda não bem compreendidos. Além disso, o processo de XCI apresenta diferenças importantes entre humanos e camundongos e estudos direcionados para a identificação de novos componentes envolvidos na manutenção da XCI em humanos tornam-se de fundamental importância. Triagens funcionais genômicas por bibliotecas de shRNAs constituem uma ferramenta poderosa para a identificação de genes envolvidos em diferentes mecanismos celulares e vias bioquímicas. Sendo assim, utilizamos essa ferramenta para triar genes envolvidos na manutenção da XCI em humanos. Células somáticas femininas primárias HPRT+/-/HPRT- foram transduzidas com uma biblioteca lentiviral de shRNAs e posteriormente tratadas em meio de cultura contendo a droga HAT para seleção de células HPRT+ nas quais esperava-se que o cromossomo Xi presente tivesse sofrido reativação em decorrência do knockdown de genes envolvidos na manutenção da XCI. Essa estratégia nos permitiu identificar 20 novos genes candidatos a estarem envolvidos na manutenção da XCI. Esses candidatos deverão ser avaliados individualmente para confirmar seu papel no processo de controle epigenético do cromossomo X / Transcriptional dosage compensation between mammalian XX females and XY males is acquired through a complex epigenetic mechanism that leads to the inactivation of most part of one of the X chromosomes in the female cells. The X chromosome inactivation (XCI) process takes place early during embryogenesis and involves the acquisition of epigenetic modifications that are characteristic of the inactive X chromosome (Xi). Once silencing is established, the inactivation pattern is maintained in through all the subsequent mitosis and the same X chromosome remains stably silenced in all the descendant cells and throughout the life of the organism (except for the germ line cells that undergo X chromosome reactivation). The initiation of XCI has been studied extensively, especially in mice. Although some epigenetic features associated with the maintenance of XCI have already been described, the identity and specific mode of action of the factors involved in this phase of XCI are largely unknown. Moreover, the XCI process presents important differences between mice and humans, and studies directed to the identification of new players involved in the maintenance of human XCI are fundamentally important. Functional genome-wide screens using multiplex shRNA libraries are a powerful tool for the identification of genes involved in different cellular mechanisms and biochemical pathways. In order to screen for genes involved in the maintenance of XCI in humans, a population of HPRT+/-/HPRT- primary somatic female cells were transduced with a multiplex lentiviral shRNA library and subsequently treated in HAT medium to select for HPRT+ cells in which we expected that the Xi would undergo reactivation as a result of the knockdown of genes involved in the maintenance of XCI. As a result, we identified 20 new candidate genes that could potentially be involved in the maintenance of XCI. These candidates should be individually evaluated in order to confirm their role in the epigenetic control of the X chromosome

Epigenética

Epigenetics

Genomic functional screening

ICX

Inativação do cromossomo X

Next generation sequencing

NGS

Sequenciamento de próxima geração

Triagem genômica funcional

X chromosome inactivation

XCI

The evolution and transmission of HA-MRSA ST239 through hospitals in Turkey and intercontinental spread

Aldeljawi, Mona

January 2015

Next-generation sequencing technology provides high-resolution data for epidemiological surveillance of bacterial pathogens on local and global scales. This approach has been used for many species including Methicillin Resistant Staphylococcus aureus (MRSA). In this thesis I demonstrate the utility of these data for understanding the spread of the globally disseminated clone MRSA ST239. I focus both on local and national-level epidemiology through sequence data of 71 isolates recovered from four hospitals representing three cities in Turkey; Istanbul (x2). Ankara and Izmir. I analyse whole genome sequence data from a further 33 ST239 isolates from global sources. These data were combined with previously published data for phylogenetic analysis based only on the core genome. I demonstrate how transmission events can be inferred from this approach on multiple levels; within hospital, between hospitals and between countries. The data pointed to a European origin of ST239, and independent introductions from Europe to Turkey, South America and East Asia. I also demonstrate how whole genome sequence data can be used to develop bespoke PCR assays, based on phage variation, for rapid local epidemiology. Finally, I consider how the sequence data might be used to explain variation in virulence potential, and describe the distribution and transfer of an important phage-borne virulence determinant, sasX, within Europe. Finally, I identified a single isolate with very strong biofilm forming ability likely due to the over-expression of the important adhesion SasG.

362.1969

Caractérisation du microbiome respiratoire et de la diversité génomique virale au cours des formes de grippes sévères / Respiratory microbiome and viral genomic diversity : characterization in severe forms of influenza diseases

Pichon, Maxime

05 December 2018

La grippe est une infection respiratoire responsable de complications respiratoires ou neurologiques nécessitant une prise en charge rapide et adaptée. L’émergence des technologies de séquençage à haut débit (NGS) permet l’étude des communautés microbiennes résidentes ainsi qu’une étude approfondie du génome des pathogènes impliqués. Cette thèse a pour objectif de caractériser le microbiome respiratoire et la diversité génomique virale des patients infectés par les virus grippaux, en corrélant les données clinicobiologiques recueillies. Après recueil des prélèvements respiratoires d’enfants hospitalisés entre 2010 et 2014, le séquençage de leur microbiome respiratoire a mis en évidence une augmentation de la diversité microbienne ainsi qu’une signature microbienne différentielle entre formes cliniques. Une répartition différentielle de taxons (OTU) permet la prédiction de complications chez les enfants infectés. L’étude d’échantillons respiratoires de patients adultes permettra de compléter la signature prédictive. Après validation des processus analytiques et bioinformatiques par reconstitution artificielles de quasi espèces et recueil de 125 prélèvements cliniques respiratoires, le séquençage du génome entier par NGS des virus grippaux permet de différencier les diversités initiales en fonction de la nature du virus infectant et de la complication. En comparaison du prélèvement initial précoce les échantillons prélevés successivement mettent en évidence une diversification différentielle entre les différents segments des virus grippaux infectant les patients, que ce soit chez les patients immunocompétents ou chez un patient immunodéprimé à l’excrétion prolongé / Influenza is a respiratory infection responsible for respiratory or neurological complications and require rapid and adapted management. The emergence of next-generation sequencing (NGS) allows the study of resident microbial communities as well as an in-depth study of the genome of the pathogens. This thesis aimed to characterize the respiratory microbiome and the viral genomic diversity of influenza virus infected patients, correlating these data to the collected clinical data. After sampling of respiratory specimens from hospitalized children between 2010 and 2014, the sequencing of their respiratory microbiome revealed an increase in microbial diversity and a differential microbial signature between clinical forms. A differential taxon distribution (OTU) allows the prediction of complications in infected children. The study of adult respiratory samples will complete the predictive signature.After validation of the analytical and bioinformatic processes by artificial reconstitution of quasi-species and collection of 125 respiratory clinical specimens, the sequencing of the whole genome by NGS of the influenza viruses allow to differentiate the initial diversities according to the nature of the infecting virus and the complication. Compared to early samples, specimen sampled successively show a differential diversification between the different segments of influenza viruses, whether in immunocompetent patients or in an immunocompromised patient with prolonged excretion

Grippe

Microbiome respiratoire

Séquençage 16S

Séquençage profond (UDS)

NGS

Virus influenza

Diversification virale

Quasi-espèces

Influenza

Influenzavirus

Respiratory microbiome

16S sequencing

Viral diversity

Quasispecies analysis

570

Impact of lighting conditions on the developmental physiology of Atlantic salmon (Salmo salar)

Clokie, Benjamin Gregory James

January 2017

The Atlantic salmon (Salmo salar) lifecycle is punctuated by distinct ontogenic stages which are routinely manipulated commercially by photoperiod regimes to enable year-round production. As such, light plays a critical role throughout the production cycle, however, it remains poorly characterised and light spectrum and intensity have not been defined optimally yet. This thesis was therefore set out to test the effects of narrow bandwidth light (Blue-λ(max) 444 nm, Green-λ(max) 523 nm, Red-λ(max) 632 nm and White) and intensity in freshwater (FW). Fry-parr development, out-of-season smoltification and ocular and vertebral health were examined as was the long-term effects of FW light regimes on seawater (SW) growth and muscle structure. In addition, the impact of photoperiod regimes on out-of-season smolts following transfer to SW was investigated. 
 Major findings from the trials conducted show that light spectrum and intensity influence parr development with lower intensities performing better than higher intensities. Both the initiation and duration of smoltification was impacted by spectrum. Importantly, this doctoral work showed that daily changes in light intensity, from low during the scotophase to high during the photophase applied for the duration of a standard out-of-season smoltification regime was capable of providing a sufficient cue for the induction of smoltification. Historic FW light exposure impacted SW performance and post-transfer SW photoperiod had significant impact upon growth and maturation development. Results based on changes to the gonadosomatic index provide important guidance for suitable post-transfer photoperiods for smolt transferred to SW around the winter solstice. Importantly, from the parameters tested, exposure to different spectrum or light intensities did not adversely affect vertebral or ocular health. 
 This thesis did not only focus on the physiological effects of light but also aimed to characterise better the pathways involved in light perception and integration. To do so, the neural response to both broad spectrum white light, darkness and Red and Blue light was investigated through deep brain insitu-hybridisation and high throughput sequencing (NGS) of the pituitary gland. Results showed substantial spectral and light/dark changes in the both the deep brain and pituitary transcriptome. Overall, this research provides both scientifically interesting and commercially relevant guidance for the optimisation of lighting systems for use in captive salmon aquaculture. Major findings from the trials conducted show that light spectrum and intensity influence parr development with lower intensities performing better than higher intensities. Both the initiation and duration of smoltification was impacted by spectrum. Importantly, this doctoral work showed that daily changes in light intensity, from low during the scotophase to high during the photophase applied for the duration of a standard out-of-season smoltification regime was capable of providing a sufficient cue for the induction of smoltification. Historic FW light exposure impacted SW performance and post-transfer SW photoperiod had significant impact upon growth and maturation development. Results based on changes to the gonadosomatic index provide important guidance for suitable post-transfer photoperiods for smolt transferred to SW around the winter solstice. Importantly, from the parameters tested, exposure to different spectrum or light intensities did not adversely affect vertebral or ocular health. This thesis did not only focus on the physiological effects of light but also aimed to characterise better the pathways involved in light perception and integration. To do so, the neural response to both broad spectrum white light, darkness and Red and Blue light was investigated through deep brain insitu-hybridisation and high throughput sequencing (NGS) of the pituitary gland. Results showed substantial spectral and light/ dark changes in the both the deep brain and pituitary transcriptome. Overall, this research provides both scientifically interesting and commercially relevant guidance for the optimisation of lighting systems for use in captive salmon aquaculture.

Molecular epidemiological study on Infectious Pancreatic Necrosis Virus isolates from aquafarms in Scotland over three decades

Ulrich, Kristina

January 2018

Introduction: RNA viruses are economically important pathogens of fish, and among these viruses, infectious pancreatic necrosis virus (IPNV) is of particular concern for the aquaculture industry, especially for farmed rainbow trout (Oncorhynchus mykiss) and Atlantic salmon (Salmo salar). This non-enveloped aquatic virus, which was first isolated in the UK in 1971, belongs to the family of Birnaviridae and has a bi-segmented dsRNA genome of about 6kb. IPNV is classified in 6 genogroups with correspondence to 10 known serotypes and an additional proposed genogroup of marine aquabirnaviruses (MABV). IPNV causes high mortality in fry and a reduced mortality in adult fish, respectively. Fish, which survive, can become carriers and this can lead to a clinical outbreak by releasing infective material into water or by vertical transmission via oocytes, milt and seminal fluids. Methods: This project aimed at determining the phylogeny and genomic changes of IPNV in Scotland by whole genome sequence analysis of IPNV isolates (diagnostic TCID50 supernatants) spanning 3 decades since 1982, using next generation sequencing technology. Viral RNA of IPNV culture supernatant (CHSE-214 and TO cell culture) was processed for next generation sequencing on an Illumina MiSeq platform. Library preparation was performed using the Nextera XT DNA Library Kit, prior to sequencing according to the manufacturer's MiSeq Reagent Kit v3 (150cycles) protocol. To optimize whole genome next generation sequencing for IPNV, we compared two RNA processing protocols, the Glasgow (GLAP) and the Goettingen protocol (GOEP) with focus on missing terminal nucleotides after a de novo genome assembly. Sequences were used to determine the phylogeny and selection pressure on the genome as well as a possible virus-host adaptation. Results: The results showed that both protocols were able to give full length genomes as well as genomes with missing terminal nucleotides. The phylogenetic analysis of 57 sequenced IPVN isolates shows that 78.95 % of the isolates group within genogroup V, which includes serogroup Sp and 5.26 % within genogroup I which includes serogroup Ja. Segment A of 15.79 % of the isolate grouped within genogroup III, which includes serotype Ca1 and Te but only 7.02 % of the segment B isolates grouped in the genogroup III. The remaining 8.77 % of segment B groups within genogroup II, containing the Ab serotype. Previous research has shown that residue substitutions at positions 217 and 221 in the major capsid protein VP2 have an impact on the virulence of the virus, leading to different virulence types: virulent (T217, A221), low virulence (P217, A221), avirulent (T217, T221) and persistent (P217, T221). Whole genome sequence results show that 58.93 % of the sequenced isolates belong to the persistent, 32.14 % to the low virulent type, only one isolate was of a virulent type and 7.15 % had not virulence assigned amino acid compositions in positions 217 and 221. The selection pressure analysis showed that especially VP2 is experiencing selection pressure in the variable region. In the VP1 protein we see two sites under positive selection pressure within specific motifs. VP5 showed positive selected sites mostly within the truncated region of the protein. Other proteins showed no particular interesting sites of selection. The codon adaptation analysis showed highest adaptation index for VP2. Besides VP5, which had an CAI index below one, therefore showing negative adaptation, other IPNV proteins had an CAI of barely above the value of 1. The dinucleotide abundance, focussing on CpG, showed that CpG is underrepresented in segment A and B. Discussion Phylogenetic analysis of the sequenced IPNV strains shows separate clustering of different genogroups. Genetic reassortment is observed in segment B showing a grouping within genogroup III and II although the segment A of these isolates was grouping exclusively within III. We found that over 50 % of the isolates belong to the persistent and over 30 % to the low virulent type, assuming that due to not sterilising vaccination these types were selected in the vaccinated population. The results from the CAI calculations indicate an adaptation of IPNV to its host. Together with the findings that CpG is underrepresented in IPNV it suggests that this leads to an immune escape. Especially since the selection pressure analysis showed positive selection in VP2 within the virulence determination sites of the protein, indicating that IPNV "tries" to downregulate immune recognition. The prevalence of mostly persistent type of isolates indicates together with the assumption of adaptation and immune escape that IPNV is evolving with the host in order to ensure survival.

Modelagem e implementação de banco de dados clínicos e moleculares de pacientes com câncer e seu uso para identificação de marcadores em câncer de pâncreas / Database design and implementation of clinical and molecular data of cancer patients and its application for biomarker discovery in pancreatic cancer

Bertoldi, Ester Risério Matos

20 October 2017

O adenocarcinoma pancreático (PDAC) é uma neoplasia de difícil diagnóstico precoce e cujo tratamento não tem apresentado avanços expressivos desde a última década. As tecnologias de sequenciamento de nova geração (next generation sequencing - NGS) podem trazer importantes avanços para a busca de novos marcadores para diagnóstico de PDACs, podendo também contribuir para o desenvolvimento de terapias individualizadas. Bancos de dados são ferramentas poderosas para integração, padronização e armazenamento de grandes volumes de informação. O objetivo do presente estudo foi modelar e implementar um banco de dados relacional (CaRDIGAn - Cancer Relational Database for Integration and Genomic Analysis) que integra dados disponíveis publicamente, provenientes de experimentos de NGS de amostras de diferentes tipos histopatológicos de PDAC, com dados gerados por nosso grupo no IQ-USP, facilitando a comparação entre os mesmos. A funcionalidade do CaRDIGAn foi demonstrada através da recuperação de dados clínicos e dados de expressão gênica de pacientes a partir de listas de genes candidatos, associados com mutação no oncogene KRAS ou diferencialmente expressos em tumores identificados em dados de RNAseq gerados em nosso grupo. Os dados recuperados foram utilizados para a análise de curvas de sobrevida que resultou na identificação de 11 genes com potencial prognóstico no câncer de pâncreas, ilustrando o potencial da ferramenta para facilitar a análise, organização e priorização de novos alvos biomarcadores para o diagnóstico molecular do PDAC. / Pancreatic Ductal Adenocarcinoma (PDAC) is a type of cancer difficult to diagnose early on and treatment has not improved over the last decade. Next Generation Sequencing (NGS) technology may contribute to discover new biomarkers, develop diagnose strategies and personalised therapy applications. Databases are powerfull tools for data integration, normalization and storage of large data volumes. The main objective of this study was the design and implementation of a relational database to integrate publicly available data of NGS experiments of PDAC pacients with data generated in by our group at IQ-USP, alowing comparisson between both data sources. The database was called CaRDIGAn (Cancer Relational Database for Integration and Genomic Analysis) and its funcionalities were tested by retrieving clinical and expression data of public data of genes differencially expressed genes in our samples or genes associated with KRAS mutation. The output of those queries were used to fit survival curves of patients, which led to the identification of 11 genes potencially usefull for PDAC prognosis. Thus, CaRDIGAn is a tool for data storage and analysis, with promissing applications to identification and priorization of new biomarkers for molecular diagnosis in PDAC.

Banco de dados

Cancer

Câncer de pâncreas

CaRDIGAn

CaRDIGAn

Database

Database design

Ensembl

ICGC

Modelo entidade-relacionamento

NGS

Pancreatic ductal adenocarcinoma

Relational database

TCGA

Infecção por Giardia duodenalis e diversidade da microbiota intestinal em crianças de 0 a 6 anos de idade

Arbex, Ana Paula Oliveira.

January 2019

Orientador: Semíramis Guimarães Ferraz Viana / Resumo: Giardia duodenalis é um dos principais agentes etiológicos de diarreia infecciosa, sobretudo em crianças em idade pré-escolar que vivem em comunidades de baixa renda. Estudos da diversidade genética de G. duodenalis ampliaram o conhecimento da epidemiologia nas infecções humanas, entretanto um dos temas mais interessantes e menos conhecidos é a possível interação de Giardia com o microbioma do hospedeiro e com patógenos concomitantes. No presente estudo, avaliou-se a composição e a diversidade da comunidade bacteriana de crianças saudáveis e crianças com diarreia, parasitadas por Giardia e outros protozoários intestinais. Os isolados de Giardia obtidos nessa população foram caracterizados geneticamente. Amostras de fezes foram obtidas de 181 crianças de 0 a 6 anos de idade, das quais 156 crianças hígidas atendidas em centros de educação infantil e 25 crianças com diarreia atendidas no PS Infantil Municipal. Cada amostra de fezes foi processada para o exame microscópico e submetida à extração de DNA a ser empregado em duas etapas distintas: (1) amplificação e sequenciamento Sanger para a caracterização genética de Giardia e o diagnóstico de Blastocystis sp, Dientamoeba fragilis, Enterocytozoon bieneusi e Cryptosporidium spp. e (2) amplificação do gene 16s RNA ribossomal e sequenciamento de nova geração (plataforma Illumina MiSeq) para a caracterização da microbiota intestinal. Giardia (36,5%) e Blastocystis (41,7%) foram os parasitas mais prevalentes. A caracterização genética... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Giardia duodenalis is one of the major etiological agents of infectious diarrhea, especially in preschool children living in low-income settings. Studies focused on genetic diversity of G. duodenalis have provided insights for a better understanding of epidemiology in human infections. However, one of the most interesting and least known issues is the possible interplay between Giardia and the host microbiome and concomitant pathogens. In this work, we evaluated the diversity and composition of bacterial community of healthy children and children presenting with diarrhea infected by Giardia and/or other intestinal protozoa. In addition, Giardia isolates infecting this population were genotyping. A total of 181 stool samples from children aged 0 to 6 years old (156 from daycare children and 25 from diarrheic children attending in an emergence pediatric center) were tested by microscopic examination and submitted to DNA extraction for the following steps: (1) conventional PCR/sequencing for Giardia genotyping and the diagnosis of Blastocystis sp, Dientamoeba fragilis, Enterocytozoon bieneusi and Cryptosporidium spp and (2) next-generation sequencing (Illumina MiSeq) based analysis of intestinal microbiota. Giardia (36.5%) and Blastocystis (41.7%) were the most prevalent parasites. Analysis of Giardia sequences retrieved from 61 isolates revealed infections by assemblages A (31%), B (69%) and mixed infections A+B (3%). Metagenomic analyzes revealed similarity of bacterial microb... (Complete abstract click electronic access below) / Doutor

parasitas intestinais

Crianças.

Giardia duodenalis

Variação genética.

Sequenciamento de Nova Geração (GS)

Microbiota.

intestinal parasite

children

Variação genética.

Next Generation Sequencing (NGS)

The Genetic and Functional Analysis of the Obsessive-Compulsive Disorder Spectrum

Ozomaro, Uzoezi

22 June 2011

Obsessive-compulsive disorder (OCD) and the spectrum of associated conditions, affect 2-4% of the population worldwide. Although heritability studies in OCD have shown a 3 - 12 times increased risk for first degree relatives, the identification of the underlying risk-conferring genetic variation using classic genetic association studies has proven to be difficult. The possibility of a larger contribution of rare genetic variants to the risk of psychiatric disorder has been suggested by several successful studies. We expect that a spectrum of risk allele frequencies exists, which includes not only common variation but also a substantial amount of rare genetic variants that contribute to OCD. This thesis is aimed at identifying and functionally characterizing rare genetic variation in the OCD spectrum. Identified statistically significant variants were scrutinized for changes related to synaptic function using high content screening and subsequent functional analyses. Identifying the genetic profile of rare variants found in the OCD spectrum cohort combined with the functional impact that these variants have has provided insight into the etiology of the OCD spectrum. With these approaches a foundation can be laid for the development of a predictive model of the OCD spectrum.

Obsessive-Compulsive Disorder (OCD)

neurite outgrowth

rare genetic variants

psychiatric genetics

next-generation sequencing (NGS)

Investigation of the deregulated miRNome identified during acute viral infections in a murine model of HSV-1 encephalitis

Caligiuri, Kyle

January 2013

Herpes simplex virus type 1 (HSV-1) is a double stranded DNA virus that causes epithelial skin infections and persists through the life of the host by infecting neurons, where it can switch to a latent state to evade an immune response. In rare cases during primary infection or after reactivation, instead of undergoing lytic infection at the epithelial surface, it instead travels to the brain and causes herpes simplex virus encephalitis (HSVE) which can have a ≥70% mortality rate if untreated. As the virus takes over its host cell, it gains control of the host cell machinery and manipulates host gene expression in order to evade the immune system and to pool its resources into the replication of the virus. One aspect of the dysregulated gene expression involves microRNAs (miRNAs). MiRNAs are short, non-coding RNAs that bind to the 3' untranslated region (3'UTR) of messenger RNAs (mRNAs), leading to translational repression of the target. Dysregulated miRNAs are often down-regulated during infection as the virus takes over, but many miRNAs have also been found to be up-regulated as well1–5. The aim of this study is to observe the full cellular miRNA changes in the context of an acute viral encephalitic infection using HSV-1, and to further characterize selected up-regulated miRNAs to determine their function in the context of the disease state. Of particular note were miR-141 and miR-200c which showed anti-apoptotic effects on neuronal cell culture and did not impact cell viability during an over-expression of the miRNAs. MiR-141, miR-183 and miR-200a expression was enriched within specific areas of the brain during infection. In addition, the potential for miR-150 to bind to a bioinformatically predicted target site within the shared 3'UTR of the HSV-1 UL18, UL19 and UL20 genes was explored. Examining the changes in expression of this class of regulatory RNAs and investigating their potential functions may yield new insight into the relationship between host and virus during infection.

herpes simplex virus type 1

microRNA

HSV-1

miRNA

next generation sequencing

NGS

deep sequencing

miRNome

herpes simplex virus encephalitis

HSVE

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