Sequenciamento de nova geração do gene IRF4: identificação de variações associadas a fenótipos de pigmentação na população brasileira / Next generation sequencing of gene IRF4: identification of variations associated with pigmentation traits in the Brazilian population

Oliveira, Maria Luiza Guimarães de

25 May 2016

O gene fator regulador de interferon 4 (IRF4), localizado na região cromossômica 6p25- p23, é um membro da família de fatores reguladores de interferon (IRF), um grupo de fatores de transcrição de ligação ao DNA, sendo IRF4 primariamente associado ao desenvolvimento e resposta imune e expresso exclusivamente em células do sistema imunológico e em linhagens melanocíticas. Embora muitos estudos tenham associado IRF4 a diversas condições, como melanoma e leucemia linfocítica crônica, um recente Genome-Wide Association Study (GWAS) identificou que alelos do SNP rs12203592 (intron 4) estão associados com variação fenotípica em relação à presença de sardas, pigmentação da pele, cabelos e olhos. Estudos funcionais realizados em células melanocíticas humanas e de camundongos revelaram que este SNP está diretamente envolvido na regulação da expressão de IRF4, sugerindo uma clara função na pigmentação do melanócito. Apesar destes achados, a diversidade das regiões regulatórias e codificadora de IRF4 não foi até o momento analisada em populações miscigenadas. A fim de avaliar se outros sítios de variação ao longo do gene IRF4 podem estar associados à pigmentação humana, as regiões regulatórias (promotora e 3´UTR) e codificadora (9 exons e regiões intrônicas flanqueadoras, incluindo o SNP rs12203592) foram analisadas por sequenciamento de nova geração em uma amostra miscigenada da população brasileira. A amostra populacional foi composta por 228 indivíduos não aparentados de Ribeirão Preto, estado de São Paulo, Brasil, os quais foram estratificados de acordo com a pigmentação da pele (clara, média e escura), olhos (azul, verde, castanho-claros e castanho-escuros), cabelo (ruivo, loiro-claro, loiroescuro, castanho-claro, castanho-escuro e preto) bem como em relação à presença de sardas e intensidade de cabelos grisalhos. Bibliotecas de DNA foram preparadas utilizando o Sistema de Enriquecimento de Alvo Haloplex (Agilent Technologies) e sequenciadas na plataforma MiSeq (Illumina). Os pacotes de software CutAdapt, BWA and GATK foram utilizados, respectivamente, para trimagem das sequências dos adaptadores, alinhamento e identificação de variantes. Haplótipos e alelos não identificados foram inferidos pelo método PHASE, embora a fase conhecida entre os sítios de variação (obtida pelo GATK) tenha sido levada em consideração. Um total de 105 sítios de variação foram identificados. Apenas dois deles apresentaram frequências genotípicas que não atendem ao esperado pelo equilíbrio de Hardy-Weinberg (EHW). Dezoito destes SNPs apresentaram forte associação a pelo menos uma característica de pigmentação. Entretanto, se a conservadora correção de Bonferroni para múltiplos testes for levada em consideração, apenas duas associações, ambas envolvendo o SNP rs12203592, permanecem significativas: a associação do alelo T com pele clara e olhos azuis. Este resultado está de acordo com estudos prévios, que reportam que o alelo rs12203592*T leva a uma menor ativação de IRF4 e a uma expressão reduzida da tirosinase, resultando em sensibilidade ao sol e olhos azuis. Foi inferido um total de 101 haplótipos, estando a distribuição destes de acordo com o esperado pelo EHW. Quando os haplótipos foram divididos em haplótipos da promotora, codificadora e 3´UTR foram observadas, respectivamente, 17, 29 e 37 diferentes combinações haplotípicas. Várias associações foram identificadas, particularmente envolvendo o haplótipo mais frequente da promotora, os dois haplótipos mais frequentes da codificadora e o haplótipo mais frequente da 3´UTR, todos associados com pele clara, olhos azuis, cabelos castanhos e cabelos grisalhos. Estes resultados sugerem que outras variantes além de rs12203592, quando consideradas em um contexto haplotípico, são associadas com a pigmentação humana. / The Interferon Regulatory Factor 4 (IRF4) gene, located at chromosomal region 6p25- p23, is a member of the interferon regulatory factor (IRF) family, a group of DNAbinding transcription factors, with the IRF4 primarily associated with immune system development and response and expressed exclusively in immune system cells and melanocytic lineages. Although many studies have shown that IRF4 is associated with many human conditions, such as melanoma and chronic lymphocytic leukemia, a recent Genome-Wide Association Study (GWAS) identified that alleles from the SNP rs12203592 (intron 4) is also associated with phenotypic variation regarding presence of freckles, hair, eye and skin pigmentation. Functional studies in human and mice melanin-containing cells revealed that such SNP is directly involved in the regulation of IRF4 expression, suggesting a clear role in melanocyte pigmentation. In spite of these findings, the regulatory and coding IRF4 diversities in admixed populations have not been evaluated so far. In order to verify if other variation sites spread across the IRF4 gene may be associated with human pigmentation, the regulatory (promoter and 3\'UTR regions) and coding (9 exons and flanking intronic regions, including the SNP rs12203592) regions were analyzed by next-generation sequencing procedures in a Brazilian admixed population sample. The population sample was composed of 228 unrelated individuals from the Ribeirão Preto area, São Paulo State, Brazil, which were stratified according to eye (blue, green, hazel, light-brown, and dark-brown), hair (red, blond, dark-blond, light-brown, dark-brown and black) and skin (light, intermediate and dark) pigmentation, as well as regarding the presence of freckles and intensity of hair greying. DNA libraries were prepared using the Haloplex Target Enrichment System (Agilent Technologies) and sequenced at the MiSeq platform (Illumina). CutAdapt, BWA and GATK software packages were used for trimming adaptor sequences, alignment and genotype calling, respectively. Missing alleles and haplotypes were inferred by using the PHASE method, although the known phase between variable sites (obtained by GATK) was taken into account. A total of 105 variation sites were identified. Only two of them presented genotype frequencies that did not fit Hardy- Weinberg equilibrium (HWE) expectations. Eighteen of these SNPs presented strong association with at least one pigmentation feature. However, if the conservative Bonferroni correction for multiple tests is taken into account, only two associations, both of them involving the rs12203592 SNP, remain significant: allele T associated with light skin and blue eyes. This result is in agreement with previous reports that the rs12203592*T allele leads to reduced IRF4 activation and reduced tyrosinase expression, leading to sun sensitivity and blue eyes. A total of 101 different haplotypes were inferred, and haplotype distribution was in agreement to HWE expectations. When haplotypes were subdivided in promoter, coding and 3\'UTR haplotypes, 17, 29 and 37 different haplotypes were observed, respectively. Various associations were identified, particularly involving the most frequent promoter haplotype, the two most frequent coding (only one of them with allele rs12203592*T), and the most frequent 3\'UTR, all of them with light skin, blue eyes, brown hair and hair greying. These results suggest that other variation sites besides rs12203592, when considered in a haplotypic background, are associated with human pigmentation.

Brasil

Brazil

Diversidade genética

Fator regulador de interferon 4

Genetic diversity

Interferon regulatory factor 4

Next generation sequencing

rs12203592

rs12203592

Sequenciamento de nova geração

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.

Apports de la paléogénétique à l'étude des helminthes gastro-intestinaux anciens / Paleogenetics to study ancient gastrointestinal helminths

Côté, Nathalie

16 December 2015

La paléoparasitologie est l’étude des restes de parasites préservés dans des échantillons archéologiques et permet de mieux comprendre l’état de santé des populations anciennes et d’obtenir des informations d’ordre anthropologique ou ethnologique, sur les régimes alimentaires ou les conditions d’hygiène au quotidien. Les restes de parasites peuvent être retrouvés sous forme de macro-restes (vers ou larves), d’antigènes, d’ADN ou d’œufs. Cesderniers peuvent être particulièrement bien préservés au cours du temps car ils sont composés en partie de chitine, les rendant résistants aux processus de dégradation. L’observation microscopique de leurs caractéristiques morphologiques et micrométriques permet d’identifier les taxons au niveau du genre ou de la famille. Dans le cadre de cette thèse, plusieurs helminthes gastro-intestinaux, dont les œufs sont fréquemment retrouvés dans des échantillons archéologiques, ont été ciblés par une approche génétique. Il s’agit des vers plats Tæniasaginata, T. solium, T. asiatica, Echinococcus granulosus, E. multilocularis, Diphyllobothriumlatum, D. dendriticum et D. nihonkaiense, des nématodes Trichuris trichiura, Enterobiusvermicularis et Ascaris sp. et des douves Fasciola hepatica, F. gigantica, Dicrocoeliumdendriticum et D. chinensis.La méthode « aMPlex Torrent » permet de détecter, dans un grand nombre d’échantillons archéologiques, une faible quantité d’ADN de parasites. Cette approche combine la spécificité et la sensibilité de la PCR au haut-débit du séquençage de nouvelle génération. Plusieurs vestiges, provenant de périodes et de régions géographiques diverses, ont été analysés. Des résultats génétiques ont été obtenus pour des échantillons aussi anciens que 7200 BP. Nous avons par ailleurs obtenus les premières séquences anciennes de Taenia sp., Diphyllobothriumsp., Echinococcus sp., et les premières séquences européennes d’Enterobius vermicularis. Auvu de ces résultats, notre approche apparait comme étant complémentaire à la microscopie. / Palaeoparasitogy, the study of parasite remains from archaeological samples, is adiscipline that can highlight questions about the health status of the ancient populations. It can give important anthropological or ethnological information such as the diet and the hygiene conditions of past societies. The remains can be preserved as macroremains (worms or larvae),antigens, DNA or eggs. Because they are partially made of chitin, eggs of gastrointestinalhelminths resist well over time to the taphonomic degradation process. It is possible to distinguish between different families or genera of parasites by looking at the morphological features of eggs. However, since several taxa share common features, the determination is rarelypossible at the species level. For this thesis, several parasite species for which eggs arecommonly observed in archeological samples have been studied by a genetic approach. Westudied the tapeworms Tænia saginata, T. solium, T. asiatica, Echinococcus granulosus, E.multilocularis, Diphyllobothrium latum, D. dendriticum, and D. nihonkaiense; the nematodesTrichuris trichiura, Enterobius vermicularis, and Ascaris sp.; and the flukes Fasciola hepatica,F. gigantica, Dicrocoelium dendriticum, and D. chinensis.The “aMPlex Torrent” approach has been set up to detect minute amounts of DNA from parasites in multiple archaeological samples. This approach combines the specificity andsensitivity of PCR to the throughput of Next-Generation sequencing. Several samples have been analyzed by this approach. We obtained genetic results for samples as old as 7200 BP and from various geographical and archeological contexts. We obtained the first ancient DNA sequences for Taenia sp., Diphyllobothrium sp., Echinococcus sp. and the first European sequences forEnterobius vermicularis. Genetic analyses and microscopic observations appear to be complementary. Indeed, at least one taxon per sample was detected by one of the two approaches.

Paléogénétique

Paléoparasitologie

Helminthes gastro-intestinaux,

Génotypage

Séquençage de nouvelle génération

PCR multiplex

ADN

Oeufs

Palaeogenetics

Palaeoparasitology

Gastrointestinal helminths

Genotyping

Next-Generation Sequencing

Multiplex PCR

DNA

Eggs

560

Analyse de la diversité microbienne par séquençage massif : méthodes et applications / No title available

Taïb, Najwa

29 August 2013

Les avancées des nouvelles techniques de séquençage (NGS) ont permis dans le cadre des études en écologie microbienne de passer de l'analyse de quelques centaines de séquences par étude à des centaines de millions de séquences. Cette différence quantitative des données produites a induit des différences qualitatives quant aux études réalisées. En effet, avec le changement du type de données, les approches classiques d'analyse ne peuvent être appliquées et il est devenu nécessaire de définir de nouvelles stratégies en tenant compte des contraintes que posent ces données. Alors qu'il était possible d'insérer classiquement quelques dizaines de séquences issues des techniques de première génération dans des phylogénies expertisées, le nombre de séquences généré aujourd'hui par les NGS à chaque expérience rend cette tâche irréalisable et nécessite la mise en place de nouvelles stratégies et l'utilisation d'outils adaptés. Par ailleurs, les outils disponibles d'analyse de la diversité microbienne adaptés aux amplicons de nouvelle génération, implémentent des approches probabilistes et/ou de recherche de similitude pour l'identification des séquences environnementales. L'approche phylogénétique quant à elle, bien qu'elle soit la plus robuste, n'est pas utilisée pour l'annotation taxonomique de ce type de données du fait de ses besoins en temps et en ressources de calcul. Au-delà de l'approche d'annotation taxonomique, les nouvelles techniques de séquençage posent également le problème de la qualité des séquences produites et son impact sur l'estimation de la diversité. Ainsi, ce travail de thèse avait pour objectif la définition d'une stratégie d'analyse bioinformatique de données de séquençage massif dans le contexte de l'étude de la diversité microbienne, en tenant compte des limitations imposées par les ressources informatiques actuelles (matérielles et logicielles) d'un côté, et de l'avantage des méthodes phylogénétiques par rapport aux autres approches d'annotation taxonomique. Ce travail a donné lieu au développement d'une chaîne de traitement proposant une série d'analyses allant des séquences brutes jusqu'à la visualisation des résultats, tout en replaçant les séquences environnementales dans un contexte évolutif. L'approche développée a été optimisée pour la gestion de gros volumes de données, et a été comparée en terme de précision d'affiliation aux autres approches communément utilisées en écologie microbienne. Les tests et simulations ont montré qu'à partir d'une taille d'amplicons de 400 pb, l'affiliation phylogénétique avait les meilleurs résultats mais aussi, que la qualité de cette affiliation différait selon la région hypervariable ciblée. La chaîne de traitements mise en place a ensuite été par implémentée dans un contexte de calcul à haute performance, notamment sur un cluster de calcul, pour proposer un service web dédié à l'analyse de la diversité microbienne. / The characterization of microbial community structure via SSU rRNA gene profiling has been greatly advanced in recent years by the introduction of NGS amplicons, leading to a better representation of sample diversity at a lower cost. This progress in method development has provided a new window into the composition of microbial communities and sparked interest in the members of the rare biosphere. Concurrently, the processing of such amount of data has become an important bottleneck for the effectiveness of microbial ecology studies, and a multitude of analysis platforms have been developed for the handling of these data. As implemented, these tools have a steep learning curve for the biologist who is not computationally inclined, as they require extensive user intervention and consume many CPU hours due to dataset analysis and complexity, which can present a significant barrier to researchers. Moreover, although phylogenetic affiliation has been shown to be more accurate for the taxonomic assignment of NGS reads, the existing tools assign taxonomy by either a similarity search or a probabilistic approach, with the phylogenies being restricted to samples' comparison. Beyond the taxonomic assignment, the new sequencing technologies also arise the problem of the quality of the generated sequences and its impact on the richness estimation. In this work, we aimed to define a strategy for the bioinformatic analysis of high-throughput sequences in order to depict the microbial diversity, taking into account both the limitations imposed by current computer resources (hardware and software), and the advantage of the phylogenetic methods over the other taxonomic annotation approaches. This work has led to the development of a pipeline offering a set of analyzes ranging from raw sequences processing to the visualization of the results, while replacing the environmental sequences in an evolutionary framework. The developed approach was optimized for managing large volumes of data, and has been compared in term of the accuracy of taxonomic assignment to the approaches commonly used in the field of microbial ecology. This pipeline was then used to the developement of a dedicated web server for high-throughput sequencing analysis, that relies on a computing cluster and performs large-scale phylogeny-based analyses of rRNA genes with no need for specialized informatics expertise, and uses the phylogenies for both the taxonomy assessment and the delineation of monophyletic groups to highlight clades of interest.

Nouvelles techniques de séquençage

Diversité

Microorganismes

Environnement

Phylogénie

Ressources de calcul

Outils bioinformatiques

Assignation taxonomique

Amplicons

Next generation sequencing

Diversity

Microorganisms

Environment

Phylogeny

Computing resources

Bioinformatics

Taxonomic assignment

Amplicons

Handover vertical em redes NGN: integrando a sinalização do domínio de comutação de circuitos e o IMS. / Sem título em inglês

Rodrigo Bellotto Campacci

18 April 2008

Este trabalho visa estudar e implementar a integração entre o domínio de comutação de circuitos e o IP Multimedia Subsystem (IMS) para suportar handovers verticais, ou seja, entre redes de acesso distintas, por exemplo, Global System for Mobile communications (GSM) e WiFi, em especial no Serviço Voice Call Continuity (VCC). Entretanto muito pouco é especificado sobre a integração entre os domínios nas normas das diversas entidades de padronização que tratam sobre o assunto. Assim, apresenta-se uma proposta para essa integração, criando-se uma nova entidade funcional para realizá-la, o Call Data Storage Function (CDSF), que interage com os demais módulos do Serviço VCC e garante que algumas informações que devem ser trocadas entre os módulos não sejam perdidas, devido à conversão de protocolos de sinalização na interface entre tais domínios. O CDSF auxilia também no controle da alocação de endereços de referência utilizados no encaminhamento de chamadas de um domínio para o outro. São definidos os protocolos de acesso ao CDSF, bem como os métodos disponíveis. Em sua concepção, recorre-se a uma modelagem modular, que permite futuras melhorias, apenas por troca de módulos. Como estudos de caso para validar a proposta são apresentados cenários de chamadas que utilizam o Serviço VCC, passando pelo CDSF. Por fim, conclui-se que a integração entre os domínios é viável se a proposta deste trabalho for utilizada. Também se demonstra que a separação dos planos de controle dos planos de dados (de usuário) é uma das contribuições fundamentais da arquitetura NGN para o sucesso de suas implementações, como por exemplo o IMS.Além disso, destacam-se as vantagens que o Serviço VCC pode agregar ao IMS, contribuindo para sua adesão em menor prazo pelas operadoras de telecomunicações, dado que esse serviço contribui para a integração de redes, cada vez mais convergentes, agregando mobilidade e continuidade à sua utilização. / This work intends to study and implement the integration between the circuit switching domain and the IP Multimedia Subsystem (IMS) to support vertical handovers that are between different access networks, such as Global System for Mobile communications (GSM) and WiFi. Therefore the specifications are incomplete about this topic in standards from the entities who works with this subject. Then, is presented a new proposal for this integration: a new functional entity to realize this integration: the Call Data Storage Function (CDSF), which interacts with other modules of VCC Service and guarantees that some information shared between modules are not lost, due to conversion of signalling protocols in the interface between domains. Besides that, CDSF helps in the control of allocation of reference address that are used to route calls from one domain to another. Access protocols to CDSF are defined and CDSF methods are exposed. The CDSF design uses a modular approach, which allows future improvements, just changing modules. As case studies to validate this work proposal, call scenarios are presented that uses the VCC Service, using CDSF. Finally, it is concluded that the integration between domains is viable if this work proposal is used. It is presented, as well, that the separation between control plans and data plans is one of the main contributions of NGN architecture to the success of its implementations, like IMS. Furthermore, it is exposed the advantages that VCC Service can aggregate to IMS, contributing for more rapidly adoption by telecommunications operators, considering that this service helps the networks integration, adding convergence, mobility and continuity.

Handover

Redes multimídia

Telefonia móvel

Handover

IMS (IP Multimedia Subsystem)

NGN (Next Generation Networks)

VCC (Voice Call Continuity)

Estudo de alterações gênicas em amostras de sarcomas e carcinossarcomas uterinos: identificação de mercadores para  diagnóstico diferencial e tratamento / Study of gene alterations in uterine sarcomas and carcinosarcoma samples

Costa, Leonardo Tomiatti da

29 March 2018

Os sarcomas uterinos são tumores mesodérmicos raros que compreendem cerca de 3% de todos os cânceres nesse órgão. Apresentam diversidade histológica, comportamento agressivo, disseminação precoce e altas taxas mortalidade. Recentemente, os carcinossarcomas (CS) foram reclassificados histologicamente como carcinomas. Neste trabalho, os CS foram incluídos na casuística tanto para fins de comparação de seu componente mesenquimal, como por ainda fazerem parte da maioria dos estudos sobre sarcomas de corpo uterino e também da última classificação da WHO (Word Health Organization). Devido à sua diversidade e raridade, não há consenso relacionado aos fatores de risco para pior prognóstico e tratamento adequados para esses tumores. Informações sobre seus perfis gênicos e proteicos poderiam contribuir na caracterização de marcadores moleculares que auxiliassem no diagnóstico e prognóstico desses tumores, bem como no entendimento de sua biologia e comportamento clínico. Assim, nos propusemos a avaliar a presença de alterações gênicas nesses tumores, utilizando um painel de 409 genes, oncogenes e supressores de tumor, frequentemente mutados em tumores sólidos. Para isso, foram selecionadas 66 amostras, das quais 14 foram sequenciadas, incluindo, 5 carcinossarcomas (CCS), 4 leiomiossarcomas (LMS), 4 sarcomas de estroma endometrial (SEE) e 1 adenossarcoma (ADS). As reações foram realizadas utilizando a plataforma Ion Proton System (ThermoFisher) de Sequenciamento de Nova Geração. Nas 14 amostras encontramos 27 LoF e 40 mutações missenses, numa média de 39 inserções e 52 deleções por amostra, totalizando 70 mutações. Dessas, 25 encontram-se no banco de dados COSMIC. Os genes mais comumente mutados em nossa amostragem foram: TP53 (50%), KMT2D (36%), ATM (29%), DICER1 (21%), PIK3CA (21%), TRRAP (21%). Nosso objetivo principal era encontrar mutações específicas para cada subtipo histológico, porém apenas os SEEs (PDE4DIP) e os CCS (ERBB4 e PIK3CA) tiveram mutações especificas. Em outra análise, observamos que todos os subtipos histológicos compartilham o gene KMT2D. Embora não tenha sido possível estabelecer um perfil mutacional para cada subtipo histológico avaliado, nossos resultados abrem perspectivas para uma nova linha de pesquisa nos sarcomas de corpo do útero e certamente contribuem para um melhor entendimento dessas neoplasias / Uterine sarcomas are rare mesodermal tumors that comprise about 3% of all cancers in this organ. They present histological diversity, aggressive behavior, early dissemination and high mortality rates. Recently, carcinosarcomas (CCS) were histological reclassified as carcinomas. Here, we have included them in our series for purposes of comparison of the mesenchymal component and also because these tumors still form part of both the majority of studies and the WHO\'s latest classification for uterine sarcomas (Word Health Organization). Because of their diversity and rarity, there is no consensus regarding the risk factors for poor prognosis and appropriate treatment for these tumors. Thus, information about their gene and protein profiles can help in the diagnosis and prognosis of these tumors, as well as in the understanding of their biology and clinical behavior. We performed the New Generation Sequencing of 14 samples of uterine sarcomas (5 CCS, 4 LMS, 4 SEE and 1 ADS, using the Ion Proton System platform (ThermoFisher).) Among the 14 samples, we found 27 LoF (loss of gene function) and 40 missense mutations, with a mean of 39 insertions and 52 deletions per sample, totaling 70 mutations, 25 described in the COSMIC database. The most commonly mutated genes in our sample were TP53 (50%), KMT2D (36%), ATM (29%), DICER1 (21%), PIK3CA (21%), TRRAP (21%).Our main objective was to find specific mutations for each histological subtype, but only SEEs (PDE4DIP) and CCS (ERBB4 and PIK3CA) had specific mutations. In another analysis, we observed that all the histological subtypes share the KMT2D gene, which will be studied in future analyzes. Others analyzes, using a custom panel, are necessary to understand these mutations and its biological implication in uterine carcinosarcoma and sarcomas

Alterações genéticas

Carcinossarcoma

Carcinossarcoma

Genetic alterations

Genital neoplasms female

Mutação/genética

Mutations/genetics

Neoplasias dos genitais femininos

Next generation sequencing

Sarcoma

Sarcoma

Sequenciamento de nova geração

Útero

Uterus

Next-generation sequencing, morphology, and culture-based methods reveal diverse algal assemblages throughout the Florida springs

Garvey, Alyssa

01 January 2019

Algae are a group of highly diverse photosynthetic organisms found in variety of habitats. As the primary energy base in ecosystems, knowledge of the diversity and presence of certain algal lineages is paramount to our understanding of the trophic state of aquatic habitats. In recent years, the state of Florida has seen an increase of both marine and freshwater algal blooms. Similarly, filamentous algae have begun outcompeting vascular macrophytes throughout many of Florida’s springs as nutrient enrichment from anthropogenic sources increases. Traditionally, the Florida algal spring communities have been assessed using classic morphological methods, which may underrepresent the true biodiversity present. Therefore, the goal of this study was to conduct a more complete diversity assessment implementing next-generation sequencing techniques (NGS) with morphological analyses and culturing methods. While morphological methods identified a wide variety of algal taxa, belonging to 4 phyla (Bacillariophyta, Charophyta, Chlorophyta, and Cyanobacteria), next-generation sequencing techniques provided greater detail of the diatom community. This is particularly important as many diatom taxa are used as indicators of water quality. We noted discrepancies between these two methods, highlighting how NGS techniques may complement the use of morphological analyses when analyzing algal diversity in this system. Culturing methods also revealed the presence of two taxa new to science (Nodosilinea fontisand Brasilonema variegatus), indicating these springs may represent a potential source of novel cyanobacteria. Taken together, this study showcases Florida springs are rich in algal diversity and a combination of methods is required for more complete biodiversity assessments. Future studies implementing such methods will aid in the preservation and conservation of these ecosystems.

Thesis

University of North Florida

UNF

Algal assemblages, Florida springs

next generation sequencing

16S rRNA

biodiversity

Biodiversity

A Pilot Study on Methods to Introduce Teachers to New Science Standards

Niedo, Noelle Frances Garcia

14 April 2017

With the recent adoption of the Next Generation Science Standards in Oregon, there is a great need for teachers to be trained to effectively implement the three dimensions of the Next Generation Science Standards (NGSS) in their teaching. Time and location are the largest constraining factors that affect teacher participation in professional development trainings. To address this constraint, Tryon Creek State Park offered a NGSS professional development training opportunity for teachers that was integrated within a field trip that they took their students on. Before the field trip, teachers were introduced to the NGSS through a set of NGSS pre-field trip materials which informed them about the NGSS and how aspects of it would be integrated into their students' field trip. Teachers accompanied their students on a two-hour long field trip at Tryon Creek State Park where teachers observed nature guides model NGSS-aligned activities for the students. My research aimed to answer the following question: How will an informal science education program at Tryon Creek State Park affect K-2 teachers' awareness of the Next Generation Science Standards? Outcomes were measured through a pre/post retrospective survey and follow-up interviews. On the survey teachers reported little awareness of the three dimensions of the NGSS and very few of the teachers increased their understanding after the treatment. On the other hand, most had a high level of awareness and confidence in teaching factual information supporting the NGSS prior to treatment, resulting in a ceiling effect. Interviews suggested that few teachers read the materials sent in advance of the field trip, but teachers who did read the materials indicated increases in understanding of the NGSS. During the field trip several of the nature guides were effective in modeling science and engineering practices. These findings suggest that this method of professional development is promising, but needs further refinement.

School field trips

Elementary school teachers -- Attitudes

Elementary Education

Science and Mathematics Education

How Does a Next Generation Science Standard Aligned, Inquiry Based, Science Unit Impact Student Achievement of Science Practices and Student Science Efficacy in an Elementary Classroom?

Whittington, Kayla Lee

25 September 2017

This study examined the impact of an inquiry based Next Generation Science Standard aligned science unit on elementary students' understanding and application of the eight Science and Engineering Practices and their relation in building student problem solving skills. The study involved 44 second grade students and three participating classroom teachers. The treatment consisted of a school district developed Second Grade Earth Science unit: What is happening to our playground? that was taught at the beginning of the school year. Quantitative results from a Likert type scale pre and post survey and from student content knowledge assessments showed growth in student belief of their own abilities in the science classroom. Qualitative data gathered from student observations and interviews performed at the conclusion of the Earth Science unit further show gains in student understanding and attitudes. This study adds to the existing literature on the importance of standard aligned, inquiry based science curriculum that provides time for students to engage in science practices.

Self-efficacy

Students -- Attitudes

Problem solving

Inquiry-based learning

Science and Mathematics Education

Identification et caractérisation de polymorphismes génétiques impliqués dans la réponse à l’imatinib dans la leucémie myéloïde chronique / Identification and characterisation of genetic polymorphisms associated to imatinib sensitivity in chronic myeloid leukemia

Lichou, Florence

17 May 2019

La leucémie myéloïde chronique (LMC) est un syndrome myéloprolifératif rare traité par des inhibiteurs de tyrosine kinase, tel que l’imatinib. Malgré son efficacité, la résistance au traitement est un problème récurrent. Des variants génétiques responsables d’une altération de la mort cellulaire programmée (apoptose) pourraient notamment expliquer l’hétérogénéité de la réponse au traitement entre les patients. Dans un premier temps, l’objectif était de rechercher des variants candidats. Pour cela un panel de 45 gènes impliqués dans l’apoptose a été étudié par séquençage nouvelle génération chez 24 patients atteints de LMC, 12 répondeurs et 12 résistants au traitement par imatinib. A l’aide d’outils informatiques, 473 polymorphismes ont été détectés. Le nombre de patients étudiés étant limité, de nouvelles méthodes statistiques ont dû être développées pour analyser les résultats obtenus. Tout d’abord, les fréquences de survenue des variants chez les patients résistants et répondeurs ont été comparées aux fréquences observées dans la population générale et visualisées par une approche de statistiques descriptives. Cette stratégie a permis de réduire la liste à 95 polymorphismes pouvant être impliqués dans la résistance au traitement. Par la suite, les gènes ont été classés selon leur enrichissement en allèles variants. Au final, trois gènes candidats ont été choisis et séquencés chez 103 patients. Cette méthodologie, automatisée grâce à un algorithme informatique, a permis de mettre en évidence, un variant non synonyme dans le gène BCL RAMBO, retrouvé plus fréquemment chez les patients résistants de manière significative. Dans un second temps, l’objectif était de caractériser le rôle de ce variant dans la réponse à l’imatinib à l’aide de lignées cellulaires modifiées par la technologie CRISPR-Cas9. Des cellules n’exprimant plus la protéine ont été obtenues et ont permis de mettre en évidence le rôle majeur de la protéine BCL RAMBO dans l’inhibition de l’apoptose. Des lignées cellulaires portant le variant candidat ont également été créées à l’aide d’une nouvelle technique utilisant CRISPR-Cas9 : l’exon entier contenant le nucléotide d’intérêt a été remplacé par un exon modifié. La modification d’un acide aminé induite par le variant a été associé à une perte de la sensibilité au traitement par imatinib dans ces lignées, comme suggéré après séquençage des patients. Ces données indiquent que BCL-RAMBO, facteur anti-apoptotique dans une lignée modèle de LMC, pourrait devenir une nouvelle cible thérapeutique afin de surmonter la résistance à l’imatinib / Chronic myeloid leukemia (CML) is a rare myeloproliferative syndrome treated by tyrosine kinase inhibitors, such as imatinib. Despite its efficacy, resistance to treatment is a persistent clinical issue. Notably, genetic variants causing alterations in apoptosis may explain heterogeneity of imatinib sensitivity between patients. First, the goal was to look for candidate variants. For that purpose, a panel of 45 apoptotic genes was assessed by next-generation sequencing on 24 CML patients, 12 sensitive and 12 resistant to imatinib treatment. Using informatics tools, 473 polymorphisms were detected. As the number of sequenced samples was limited, novel statistical methods had to be developed to interpret the results. The variant frequency in resistant and sensitive patients was compared to variant frequency in the general population and visualized using descriptive statistics. This strategy allowed to obtain a restricted list of 95 polymorphisms that might be involved in resistance to the treatment. Then, genes were ranked according to variant allele enrichment. At the end, three candidate genes were chosen and sequenced for 103 CML patients. This methodology, automated using a computer algorithm, permitted to highlight a nonsynonymous variant in the BCL RAMBO gene, significantly found more often in resistant patients. Second, the objective was to characterize the role of this variant in response to imatinib using model cell lines modified by CRISPR-Cas9 technology. BCL-RAMBO knock-out cells were obtained and allowed to demonstrate the major role of BCL-RAMBO protein in apoptosis inhibition. Additionally, cell lines carrying the variant were created using a new CRISPR-Cas9 mediated technique: the whole exon carrying the nucleotide of interest was replaced with a variant exon. The amino acid change induced by the identified polymorphism was associated with a loss of sensitivity to imatinib treatment in these cell lines as suggested after patient sequencing. These data indicate that BCL-RAMBO, anti apoptotic factor in a CML cell line, could become a novel therapeutic target to overcome drug inefficacy for a subset of resistant patients.

Leucémie myéloïde chronique

Résistance au traitement

Polymorphismes génétiques

Apoptose

Séquençage nouvelle génération

Bcl-Rambo

Chronic myeloid leukemia

Treatment resistance

Genetic polymorphisms

Apoptosis

Next-Generation sequencing

Bcl-Rambo