Global ETD Search

81	Bases moleculares da resistência de Spodoptera frugiperda (J.E.Smith) (Lepidoptera: Noctuidae) à toxina Cry1F / Molecular bases of Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) resistance to Cry1F toxin Domingues, Felipe Antônio 29 July 2016 (has links) A utilização de toxinas Cry de Bacillus thuringiensis (Bt) no controle de lepidópteros-praga, principalmente em áreas onde a estratégia de refúgio não é regulamentada, facilita a evolução da resistência em populações de pragas-alvo. Há três relatos de resistência à campo para Spodoptera frugiperda (J.E. Smith), dois para a toxina Cry1F e um para Cry1Ab. No Brasil, ocorrem populações resistentes à Cry1F e Cry1Ab. Esse trabalho foi voltado à identificação do mecanismo de resistência de uma população de S. frugiperda à toxina Cry1F, baseando-se nas hipóteses existentes para explicar o modo de ação de toxinas Cry. Uma dessas hipóteses é baseada na formação de poros na membrana do epitélio intestinal, enquanto a outra na transdução de sinal intracelular e ativação do processo de morte celular. Para a identificação do mecanismo de resistência de S. frugiperda à toxina Cry1F, o receptor caderina de linhagens suscetível (SUS) e resistente (RES) foi caracterizado, bem como realizado estudos de expressão gênica diferencial comparativa pela análise do transcritoma dessas linhagens. Estudos de expressão gênica diferencial comparativa também foram realizados pela análise do transcritoma do intestino de lagartas de linhagens SUS e resistente isogênica (RESiso), para a identificação do mecanismo molecular de resistência à toxina Cry1F. A caracterização do transcrito do gene caderina das linhagens suscetível, resistente e resistente isogênica revelou diferenças na composição de aminoácidos da proteína caderina predita entre as linhagens suscetível e resistente à toxina Cry1F nos domínios de repetição CR5, CR6 e CR10 e no domínio C-terminal. Também foi verificado que das mutações encontradas na linhagem RES, apenas as mutações da região C-terminal foram fixadas na linhagem RESiso. A análise comparativa do transcritoma de linhagens SUS e RES indicou a maior expressão de genes relacionados à metabolização de xenobióticos, como as monoxigenases do citocromo P450, glutationa-S-transferases e carboxilcolinesterases, em lagartas resistentes, mas não foram encontradas diferenças na expressão de receptores Cry, como aminopeptidase N e fosfatase alcalina. Porém, caderina foi superexpressa e o transportador ABCg5 teve expressão reduzida na linhagem RES. O ABCg5 foi indicado como o provável mecanismo de resistência dessa linhagem à toxina Cry1F, juntamente com o aumento da capacidade de detoxificação relatada. A análise comparativa do transcritoma de linhagens SUS e RESiso produziu resultados semelhantes à análise anterior quanto ao padrão de expressão de enzimas de detoxificação, mas nesse caso foi observada redução da transcrição de caderina na linhagem RESiso em relação à SUS. A análise da linhagem isogênica também indicou alteração na expressão de transportadores ABC na linhagem RESiso; porém, para o transportador ABCb1. A análise comparativa do transcritoma de linhagens SUS e RESiso corroborou a participação do sistema de detoxificação e acrescentou a redução na expressão do receptor caderina como mecanismo de resistência dessa população à toxina Cry1F, assim como a de transportadores ABC, apesar do transportador ABCg5 não ter sido identificado nessa análise comparativa. / The broad use of Cry toxins from Bacillus thuringiensis (Bt) to control lepidopteran pests, particularly where refuge strategies are not legalized or implemented, has facilitated the evolution of resistance of pest populations. There are three records of resistance of Spodoptera frugiperda (J.E Smith) in field condition to Bt toxins so far, two of them to Cry1F and one to Cry1Ab toxins. In Brazil, field-evolved resistance of S. frugiperda has been recorded for both toxins. Thus, we aimed to identify the mechanisms associated to the resistance of S. frugiperda to Cry1F toxin based on the two concurrent hypotheses on the mode of action of Cry toxins. One of such hypotheses is based on the potential of Cry toxins to form pores in the membrane of the gut epithelium, while the other is based on the production of an intracellular transduction signal and the activation of the process of cell death. To identify the resistance mechanisms of S. frugiperda to Cry1F toxin, we characterized the transcript of the cadherin receptor of susceptible (SUS) and resistant (RES) strains of S. frugiperda to search for mutations and performed a comparative analysis of the transcriptome from SUS and RES strains. We also analyzed the transcriptome from the gut of SUS and isogenic resistant strains (RESiso) in order to identify the molecular mechanisms associated to the resistance of S. frugiperda to Cry1F. The characterization of cadherin receptor in SUS, Res and REsiso strains showed differences in the amino acid composition of the repeated domains CR5, CR6 and CR10 and in the C-terminal domain. Only mutations occurring on C-terminal of the RES strain were maintained in the RESiso strain. The comparative transcriptome between SUS and RES strains indicated a higher expression of genes related to the detoxification process, such as cytochrome P450s, glutathione-S-transferases and carboxylcholinesterases in the RES strain, while no differences in the expression of Cry receptors, such aminopeptidade N and alkaline phosphatase, were observed. However, transcriptomic analysis indicated up-regulation of cadherin and down-regulation of the ABCg5 transporter was down-regulated in the RES strain. We propose that ABCg5 is one of the mechanisms involved in S. frugiperda resistance to Cry1F, together with the increased detoxification activity observed. Analysis of the gut transcriptome from SUS and RESiso yielded similar results regarding the differential expression of detoxifying enzymes, but on this case cadherin was down-regulated in RESiso as compared to the SUS strain. Down-regulation of ABC transporters in the RESiso strain was also observed, but for the ABCb1 transporter. Analyses of the transcriptome of SUS and RESiso strains also indicated the resistance of S. frugiperda to Cry1F is related to an increased transcription of detoxifying enzymes and a reduced transcription of the cadherin receptor. Our data also demonstrates the resistance is due to the existence of adequate constitutive levels of transcription of genes that respond to the intoxication with Cry1F. Differential expression Expressão diferencial Manejo de resistência Mode of action Modo de ação Next-gemeration sequecing Resistance management RNA-Seq RNASeq Sequenciamento de nova geração
82	Rôle de la température dans l'interaction huître creuse / Ostreid Herpesvirus de type 1 : réponses transcriptomiques et métaboliques / Effects of temperature on the interaction between Pacific oysters and OsHV-1 : transcriptomic and metabolic responses Delisle, Lizenn 18 December 2018 (has links) Crassostrea gigas est la principale espèce d’huître cultivée dans le monde. Depuis 2008, de sévères épisodes de mortalités affectent les huîtres âgées de moins d’un an en Europe et en Océanie et sont associées à l’émergence de l’Ostreid herpèsvirus μVar (OsHV-1 μVar). En Europe, ces mortalités sont saisonnières et surviennent lorsque la température de l’eau de mer est comprise entre 16°C et 24°C. Dans le cadre de ce travail, l’effet des hautes températures (21°C, 26°C et 29°C) est évalué sur la sensibilité des huîtres à OsHV-1 mais aussi sur la persistance et la virulence du virus. La survie des huîtres infectées maintenues à 29°C (86%) est supérieure à la survie des huîtres placées à 21°C (52%) et à 26°C (43%).Les températures élevées (29°C) diminuent la sensibilité des huîtres à OsHV-1 sans altérer l'infectivité du virus et sa virulence. L’exposition des huîtres infectées à 29°C pourrait réduire l’expression des gènes viraux et la synthèse de virions par la réduction de l’expression de gènes hôtes codant pour des protéines impliquées dans la transcription et la traduction, la réduction de l’expression de gènes impliqués dans le catabolisme, le transport des métabolites, et synthèse de macromolécules.Finalement, l’induction conjointe de l’apoptose, des processus d’ubiquitinylation et de la réponse immunitaire, pourrait permettre l’élimination d’OsHV-1. / Crassostrea gigas is the main species of oyster cultivated in the world. Since 2008, mass mortality events have been affecting oysters aged less than one year old in Europe and Oceania and have been associated with the emergence of the Ostreid herpes virus μVar (OsHV-1 μVar). In Europe, these events are seasonal and occur when the seawater temperature is between 16°C and 24°C. In this work, the effect of high temperatures (21°C, 26°C and 29°C) was evaluated on the susceptibility of oysters to OsHV- 1 but also on the virulence of virus.High temperatures (29°C) reduce the susceptibility of oysters to OsHV-1 without altering the infectivity of the virus and its virulence. High temperature could reduce viral infection and virus synthesis by reducing the expression of host genes that encode proteins involved in transcription and translation, catabolism, metabolites transport, and macromolecules biosynthesis. Finally, the induction of apoptosis, ubiquitinylation processes and immune response could lead to the elimination of OsHV-1. Huître creuse Crassostrea gigas OsHV-1 Transcriptomique Température Interaction hôte/virus Protéomique Pacific oysters Crassostrea gigas OsHV-1 RNAseq Temperature Host/pathogen Proteomic 594.4
83	Analysis of Clp1-dependent UPR modulation in Ustilago maydis Pinter, Niko 06 June 2019 (has links) No description available. 570 Ustilago maydis UPR unfolded protein response SPP signal peptide peptidase Cib1 Clp1 Spp1 ERAD ER-associated degradation RNAseq ChIPseq Biologie (PPN619462639)
84	Translation-mediated stress responses : mining of ribosome profiling data Franaszek, Krzysztof January 2017 (has links) Advances in next-generation sequencing platforms during the past decade have resulted in exponential increases in biological data generation. Besides applications in determining the sequences of genomes and other DNA elements, these platforms have allowed the characterization of cell-wide mRNA pools under different conditions and in different tissues. In 2009, Ingolia and colleagues developed an extension of high-throughput sequencing that provides a snapshot of all cellular mRNA fragments protected by translating ribosomes, dubbed ribosome profiling. This approach allows detection of differential translation activity, annotation of novel protein coding sequences and variants, identification of ribosome pause sites and estimates of de novo protein synthesis. As with other sequencing based methodologies, a major challenge of ribosome profiling has been sorting, filtering and interpreting the gigabytes of data produced during the course of a typical experiment. In this thesis, I developed and applied computational pipelines to interrogate ribosome profiling data in relation to gene expression in several viruses and eukaryotic species, as well as to identify sites of ribosomal pausing and sites of non-canonical translation activity. Specifically, I applied various control analyses for characterizing the quality of profiling data and developed scripts for visualizing genome-based (exon-by-exon) rather than transcript-based ribosome footprint alignments. I also examined the challenge of mapping footprints to repetitive sequences in the genome and propose ways to mitigate the associated problems. I performed differential expression analyses on data from coronavirus-infected murine cells, retrovirus-infected human cells and temperature-stressed Arabidopsis thaliana plants. Dissection of translational responses in Arabidopsis thaliana during heat shock or cold shock revealed several groups of genes that were highly upregulated within 10 minutes of temperature challenge. Analysis of the branches of the unfolded protein and integrated stress responses during coronavirus infection allowed for deconvolution of transcriptional and translational contributions. During the course of these analyses, I identified errors in a recently publicized algorithm for detection of differential translation, and wrote corrections that have now been pulled into the repository for this package. Comparison of the translational kinetics of the dengue virus infection in mosquito and human cell lines revealed host-specific sites of ribosome pausing and RNA accumulation. Analysis of HIV profiling data revealed footprint peaks which were in agreement with previously proposed models of peptide or RNA mediated ribosome stalling. I also developed a simulation to identify transcripts that are prone to generating RPFs with multiple alignments during the read mapping process. Together, the scripts and pipelines developed during the course of this work will serve to expedite future analyses of ribosome profiling data, and the results will inform future studies of several important pathogens and temperature stress in plants.
85	Impact épigénomique de mutations associées à des syndromes neurodéveloppementaux dans des régulateurs de la chromatine Ehresmann, Sophie 04 1900 (has links) No description available. RNAseq ATACseq Acétylation d'histones Syndrome neurodéveloppemental Remodelage de nucléosomes TRRAP CHD3 SMARCC2 Neurodevelopmental syndrome Histone acetylayion Nucleosome remodeling
86	THE GENETIC AND BEHAVIOURAL UNDERPINNINGS OF NATURAL VARIATION IN SOCIAL BEHAVIOUR / THE GENETIC AND BEHAVIOURAL UNDERPINNINGS OF SOCIAL BEHAVIOUR Scott, Andrew M. January 2021 (has links) A rich diversity of social behaviours exists in the animal kingdom, and these behaviours have evolved to perform a variety of adaptive functions. Social behaviours show variation both among and within species, however the mechanisms that give rise to this variation are not well understood. Using fruit flies (Drosophila melanogaster), my goal was to uncover the genetic and behavioural mechanisms that underpin natural variation in two different social behaviours: sociability and sexual aggression. First, I showed that sociability, which is the tendency of animals to engage in friendly activities together, is influenced by indirect genetic effects (IGEs), and that encounters among individuals drive these effects (Chapter 2). I then showed that sociability and social plasticity have low-moderate heritability (Chapter 3), and sociability is not correlated between the sexes or with activity. I then generated lineages of flies with high and low sociability using artificial selection (Chapter 4). The evolved lineages had significantly diverged sociability which was not associated with fitness measures or nearest-neighbor distances, but was negatively correlated with intrasexual aggression (Chapter 4). Finally, in sexual aggression, which I quantified as male forced copulation rate, I showed that evolved differences and differences due to social plasticity were both associated with the differential expression of many genes, but only a few of these genes were significant in both (Chapter 5). I also showed that these sets of genes are enriched in neuropeptide hormone and serotonin gene ontology categories, and that 4 of 7 chosen genes were validated for their effects on sexual aggression. Overall, this thesis sheds light on the complex mechanisms that underlie variation in these social behaviours, and it paves the way for future research to further elucidate some of these mechanisms, especially on the genetic basis of sociability using the evolved lineages I generated. / Thesis / Doctor of Philosophy (PhD) / Individual animals tend to vary in many traits including social behaviours. Using fruit flies, my goal was to understand what causes individuals to vary in two social behaviours: sociability and sexual aggression. I found that highly sociable flies tended to influence other flies to become more sociable due to a change in how much these flies interacted. I also found that individual differences in sociability are moderately heritable, and the genetic variation contributing to this is different between the sexes. Also, less sociable flies tended to be more aggressive than highly sociable flies. Finally, for sexual aggression, I showed that variation in a male’s success in forcibly mating with a female was associated with changes in the expression of hundreds of genes, but these changes were mostly unique for evolved versus environmentally induced variation. Future work will similarly look to identify genes involved with individual differences in sociability. Social behaviour Sociability Fruit flies Drosophila Sexual aggression Aggression Indirect genetic effects Artificial selection Heritability Social plasticity RNAseq Differential expression Forced copulation Genetic correlation
87	Assessment of the Active Kinome Profile in Peripheral Blood Mononuclear Cells in Renal Transplant Patients Shedroff, Elizabeth Sarah 28 July 2022 (has links) No description available. Bioinformatics Biomedical Research Immunology Medicine Molecular Biology Statistics kinome kinomics transcriptomics RNAseq pathway analysis bioinformatics PLS-DA machine learning PBMCs renal transplant immunosuppression
88	Characterization of <i>Fraxinus</i> spp. Phloem Transcriptome Rivera Vega, Loren J. 20 October 2011 (has links) No description available. Entomology Forestry Molecular Biology Plant Sciences agrilus planipennis fraxinus ash emerald ash borer pyrosequencing RNAseq transcriptome molecular markers plant-insect interaction expressed sequence tag single nucleotide polymorphism microsatellites
89	Multiomic strategies for the discovery of molecular determinants of atrial fibrillation Leblanc, Francis J.A. 09 1900 (has links) La fibrillation auriculaire (FA) est l'arythmie cardiaque la plus répandue dans le monde et est associée à une hausse de morbidité et une mortalité importante. Des progrès substantiels dans notre compréhension de l'étiologie de la maladie ont été réalisés au cours des deux dernières décennies, conduisant à une amélioration du traitement et de la gestion de la maladie. Cependant, le fardeau de la FA continue d'augmenter. De plus, les mécanismes moléculaires et cellulaires sous-jacents à l’initiation et à la progression de la FA restent incomplètement compris. Dans cette thèse, mon objectif était de caractériser de nouveaux déterminants moléculaires et cellulaires de la FA en utilisant une approche multiomique. J'ai d'abord utilisé le séquençage de l'ARN (RNAseq) pour l'ARN total et les micro-ARN (miRNA) afin de dévaluer l'effet de la FA sur l’expression génique dans deux modèles canins de FA. Ces résultats ont impliqué le locus orthologue humain 14q32 et son lien potentiel avec la signalisation du glutamate. Dans le chapitre trois, j'ai démontré les lacunes actuelles des modèles statistiques utilisés pour prédire l'effet régulateur des régions de chromatine ouvertes sur l'expression des gènes dans des essais multiomiques à noyau unique et suggéré des alternatives montrant un meilleur pouvoir prédictif. Dans le chapitre quatre, j'ai utilisé des analyses par locus quantitatifs d'expression (eQTL) pour caractériser les variants génétiques communs associés à la FA. Grâce à des analyses de colocalisation, une cartographie fine et un multiome à noyau unique, j'ai justifié mécaniquement l’effet de variants non-codants et fait la priorisation de gènes candidats, notamment GNB4, MAPT et LINC01629. Enfin, dans le chapitre cinq, j'ai fourni une caractérisation approfondie des gènes persistants de FA différentiellement exprimés au niveau cellulaire et identifié les facteurs de transcription potentiels impliqués dans leur régulation. En résumé, l’utilisation d’une approche multiomique a permis de découvrir de nombreuses nouvelles voies cellulaires et génétiques modifiées au cours de la FA ainsi que des gènes candidats impliqués dans le risque génétique de la FA. Ces résultats fournissent des informations et ressources importantes pour concevoir de nouvelles stratégies thérapeutiques, impliquant à la fois des cibles génétiques et nouvelles voies cellulaires pour lutter contre cette maladie cardiaque commune. / Atrial fibrillation (AF) is the most prevalent cardiac arrhythmia worldwide and is associated with important morbidity and mortality. Substantial advancement in our understanding of the disease etiology have been made in the past two decades leading to improved treatment and management of the disease, however, AF burden continues to increase. Moreover, the molecular and cellular mechanisms underlying AF initiation and progression remain incompletely understood. In this thesis I aimed to characterise novel molecular and cellular determinants of AF using a multiomic approache. In chapter two, I used RNA sequencing (RNAseq) for total RNA and micro-RNAs (miRNA) to decipher the effect of AF in two canine models, which implicated the orthologue human locus 14q32 and its potential role in glutamate signaling regulation. In chapter three, I demonstrated current shortcomings of statistical models used to predict the regulatory effect of open chromatin regions on gene expression in single nuclei multiomic assays and suggested alternatives showing better predictive power. In chapter four, I used expression quantitative loci (eQTL) to characterize AF associated common genetic variants. Through co-localization analyses, fine-mapping and single nuclei multiome, I mechanistically substantiated non-coding variants and prioritized strong candidate genes including GNB4, MAPT and LINC01629. Finally, in chapter five, I provided a deep characterization of persistent AF differentially expressed genes (DEGs) at the cellular level and identified potential transcription factors involved in their regulation. In summary, using a multiomic approach unraveled numerous new cellular and gene pathways altered during AF and candidate genes implicated in AF genetic risk. These findings provide important insights and data resources to design novel therapeutic strategies, targeting both genetically derived candidate genes and cellular pathways to address this pervasive cardiac disease. Fibrillation auriculaire bioinformatique multiomique génétique humaine génomique RNAseq ATACseq technologie single cell Atrial fibrillation bioinformatics multiomics genomics human genetics single cell technology
90	Étude de l'expression différentielle du génome en relation avec la détermination du sexe chez le palmier dattier (Phoenix dactylifera L.) / Study of genome differential expression related to sex determination in the date palm (Phoenix dactylifera L.) Castillo-Pérez, Karina 14 December 2015 (has links) La compréhension des mécanismes moléculaires impliqués dans la détermination du sexe chez les plantes à fleurs est primordiale d’un point de vue fondamental et appliqué. Des processus liés à la biosynthèse des hormones, tel que l’éthylène, ou la régulation de l’expression génique via des petits ARN et des facteurs de transcription ont été associés à l’unisexualisation des fleurs chez des espèces dioïques. Cependant, les déterminants contrôlant le sexe chez les plantes sont encore largement méconnus. Le palmier dattier, Phoenix dactylifera L, est une espèce dioïque dont le dimorphisme sexuel est observé très tôt au cours du développement des fleurs. Des gènes différentiellement exprimés (DEGs) ont été identifiés pendant les stades précoces du développement floral mâle et femelle. Pour cela, un transcriptome de référence rassemblant des données d’expression relatives aux deux sexes a été généré. L’analyse d'enrichissement GO des DEGs, a révélé des processus biologiques communs aux mâles et aux femelles, associés au développement reproducteur et à la réponse aux stimuli. Ce résultat indique que des mêmes processus peuvent solliciter des gènes différents au cours du développement floral précoce en fonction du sexe. Cette analyse a également mis en évidence que le développement des fleurs mâles requiert des processus biologiques spécifiques impliqués dans la régulation cellulaire et l'expression des gènes. En outre, deux DEGs femelles, une S-adenosylmethionine synthase et une Flap endonuclease et un DEG mâle, un élément transposable, ont été identifiés dans les régions non-recombinantes du génome du palmier dattier.Cette étude est la première analyse globale des processus biologiques associés à l’acquisition du dimorphisme sexuel. Elle contribue également à la compréhension de la détermination du sexe chez le palmier dattier, et plus largement à la connaissance de ces processus chez les espèces dioïques. / Unraveling molecular mechanisms involved in sex determination in flowering plants is of outstanding basic and applied interest. Several studies on dioecious species have highlighted the molecular basis of sex determination, such as cell death and ethylene biosynthesis pathway. Sex determination mechanisms in plants are, however, still largely unknown. The date palm, Phoenix dactylifera L, is a dioecious species where sexual dimorphism is observed very early in development of flowers. Differentially expressed genes (DEGs) were identified during the early stages of the male and female flower development. A reference transcriptome including male and female data was constructed to gain insight into this process in the dioecious palm Phoenix dactylifera L. Differentially expressed genes (DEG) were subsequently identified between males and females in the early flower development stages in which the first morphological gender difference occurs in date palms.Gene ontology enrichment analysis of DEG revealed biological processes shared between males and females involved in reproductive development and response to stimulus, indicating that same processes could require different genes during early flower development in date palm. This analysis also suggested that date palm triggers biological processes specifically involved in cellular regulation and gene expression to develop male flowers. Furthermore, two female DEGs related to DNA methylation S-adenosylmethionine synthase and DNA metabolism Flap endonuclease, and one male DEGs, a transposable element were found in non-recombinant date palm regions. This study provided the first insight into biological processes involved in sex determination in date palms and more widely to knowledge of this process in dioecious species. Détermination du sexe chez les plantes Expression différentielle des gènes Dioécie Phoenix dactylifera L (palmier dattier) Séquençage haut-Débit RNA-Seq Plant sex determination Differential expression genes Dioecy Phoenix 56 dactylifera L (date palm) Next-Generation sequencing RNAseq.

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