Global ETD Search

1	Caracterização Biológica e Molecular do Lettuce mottle virus (LeMoV) em alface e Sequenciamento de Nova Geração de vírus em Jasmim estrelado / Biological and Molecular Characterization of Lettuce mottle virus (LeMoV) in lettuce and Next Generation Sequencing of viruses from Star Jasmine Oliveira, Milena Leite de [UNESP] 11 November 2016 (has links) Submitted by Milena Leite de Oliveira null (milaolive@tupa.unesp.br) on 2017-01-05T10:58:25Z No. of bitstreams: 1 TESE Milena Leite de Oliveira.pdf: 83084301 bytes, checksum: 403f45f944124e6f1f0686e2b91f36a4 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2017-01-09T16:28:44Z (GMT) No. of bitstreams: 1 oliveira_ml_dr_bot.pdf: 83084301 bytes, checksum: 403f45f944124e6f1f0686e2b91f36a4 (MD5) / Made available in DSpace on 2017-01-09T16:28:44Z (GMT). No. of bitstreams: 1 oliveira_ml_dr_bot.pdf: 83084301 bytes, checksum: 403f45f944124e6f1f0686e2b91f36a4 (MD5) Previous issue date: 2016-11-11 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A alface pode ser infectada por diferentes tipos de vírus. O Lettuce mosaic virus- LMV foi por muitos anos considerado um dos mais frequentes e amplamente distribuídos mundialmente, podendo ocorrer em infecções simples e/ou mistas com Lettuce mottle virus, LeMoV, um provável sequivirus. A falta de informações a respeito dos aspectos biológicos e moleculares relacionados à classificação taxonômica e à transmissão do LeMoV, motivou a testar sua transmissão com afídeos e por sementes, avançar no sequenciamento do genoma viral e avaliar a incidência do vírus em importantes áreas produtoras de alface no estado de São Paulo. Em 2014, dentre um total de 118 plantas sintomáticas analisadas, 63 (53%) foram positivas para a presença de tospovírus, 11 (9%) foram positivas para LMV e, apenas 6 amostras (5%) foram positivas para LeMoV. Em 2015, 40 plantas (80%) estavam infectadas com tospovírus, e o LMV e LeMoV não foram detectados, indicando que o LeMoV não está limitando a produção de alface, pelo menos não durante o ano de 2014 e 2015. A transmissão desse vírus por sementes não foi verificada nas 832 sementes provenientes de plantas de alface infectadas com LeMoV, o que indica que este vírus provavelmente não seja transmitido por semente. Myzus persicae e Aphis gossypii não foram capazes de transmitir o LeMoV de uma planta de alface para outra. Quase toda a sequencia completa do genoma do LeMoV foi obtida e a presença de domínios conservados verificados na região da capa proteica (CP), da helicase (HEL) e da RNA- dependente de RNA polimerase (RdRp), indicando que o LeMoV é membro da família Secoviridae e está estreitamente relacionado com membros do gênero Sequivirus. Durante o período do doutorado sanduíche na Universidade do Hawaii em Manoa, plantas de jasmim estrelado, coletadas no Hawaii, exibindo sintomas foliares característicos aos provocados pelos vírus, foram analisadas por sequenciamento de nova geração (SNG), a fim de identificar os patógenos relacionados com a doença. Sequencias relacionadas aos vírus da família Tombusviridae como o Rosa rugosa leaf distortion virus, Pelargonium ringspot virus, Pelargonium chlorotic ring pattern virus e Elderberry latent virus foram identificados nas plantas de jasmim estrelado, indicando infecção mista por diferentes vírus. Sequivirus Secoviridae Tombusviridae Deep sequencing
2	Using Next Generation Sequencing (NGS) to identify and predict microRNAs (miRNAs) potentially affecting Schizophrenia and Bipolar Disorder Williamson, Vernell 26 July 2012 (has links) The last decade has seen considerable research focusing on understanding the factors underlying schizophrenia and bipolar disorder. A major challenge encountered in studying these disorders, however, has been the contribution of genetic, or etiological, heterogeneity to the so-called “missing heritability” [1-6]. Further, recent successes of large-scale genome-wide association studies (GWAS) have nonetheless seen only limited advancements in the delineation of the specific roles of implicated genes in disease pathophysiology. The study of microRNAs (miRNAs), given their ability to alter the transcription of hundreds of targeted genes, has the potential to expand our understanding of how certain genes relate to schizophrenia and bipolar disorder. Indeed, the strongest finding of one recent mega-analysis by the Psychiatric GWAS consortium (PGC) was for a miRNA, though little can be said presently about its particular role in the etiologies of schizophrenia and bipolar disorder [52]. Next generation sequencing (NGS) is a versatile technology that can be used to directly sequence either DNA or RNA, thus providing valuable information on variation in the genome and in the transcriptome. A variation of NGS, MicroSeq, focuses on small RNAs and can be used to detect novel, as well as known, miRNAs [26,125, 126]. The following thesis describes the role of miRNAs in schizophrenia and bipolar disorder in various experimental settings. As an index of the interaction between multiple genes and between the genome and the environment, miRNAs are great potential biomarkers for complex disorders such as schizophrenia and bipolar disorder. Deep Sequencing MicroRNAs Schizophrenia Bioinformatics Life Sciences
3	Exploring the Sequence Landscape of the Four-helix Bundle Protein ROP using DeepSequencing Panneerselvam, Nishanthi January 2013 (has links) No description available. Biophysics Biochemistry Deep sequencing Illumina sequencing ROP
4	Développement d'une méthode SELEX pour l'identification de ribozymes pour l'aminoacylation et analyse d’ARN aminoacylés dans le transcriptome d'Escherichia coli / Development of a SELEX method to uncover auto-aminoacylating ribozymes and analysis of aminoacyl RNA from Escherichia coli transcriptomes Wang, Ji 16 September 2016 (has links) Les ribozymes sont des ARN naturels ou artificiels possédant une activité catalytique. Les ribozymes artificiels ont été identifiés in vitro par la méthode SELEX, et plusieurs d'entre eux ont été caractérisés par des études cinétiques. Ces molécules sont impliquées dans des réactions de clivage, de ligation, de modification d'extrémités d'ARN, de polymérisation, de phosphorylation et d'activation de groupements acyl. Parce qu'elle est nécessaire à la traduction, l'aminoacylation des ARN joue un rôle évolutif important dans la transition du monde de l'ARN vers le monde moderne de l'ADN et des protéines, et elle est centrale à l'établissement du code génétique. Plusieurs ribozymes catalysant le transfert d'acides aminés à partir de cofacteurs activants ont pu être isolés et caractérisés depuis une vingtaine d'années, ce qui a documenté la possibilité d'aminoacylation d'ARNt en l'absence des aminoacyl ARNt synthétases. En développant un nouveau protocole SELEX basé sur l'oxydation au périodate, le but de notre travail est de découvrir de nouveau ribozymes d'une taille de l'ordre d'une vingtaine de nucléotides pouvant combiner la catalyse de l'activation des acides aminé et la transestérification. Bien que des molécules catalysant l'une ou l'autre des deux réactions ont été identifiées, aucun ribozyme n'existe à ce jour qui puisse utiliser des acides aminés libres et un cofacteur activant pour réaliser l'aminoacylation en 3' dans un même milieu réactionnel. La sélection de molécules actives dans une approche SELEX exige la présence de régions constantes sur les deux extrémités des séquences pools aléatoires initiaux. Ces régions sont nécessaires pour l'amplification par PCR, mais elles imposent des contraintes importantes pour l'identification de ribozymes car elles peuvent complètement inhiber leur activité par interférence structurelle. Nous présentons un protocole optimisé qui minimise la taille de ces régions constantes. D'autre part, notre nouveau design est très spécifique pour la sélection d'ARN aminoacylés sur l'extrémité 3'. Ce protocole a été utilisé pour réaliser 6 à 7 cycles de sélection avec différents pools, et un enrichissement en séquences spécifiques a pu être mis en évidence. Bien que certains tests avec les pools sélectionnés a révélé une activité possible, des essais avec des séquences spécifiques de ces pools n'ont pour l'instant pas pu confirmer l'activité catalytique recherchée. Un protocole basé sur le même principe de sélection a été utilisé dans une étude parallèle pour identifier les ARN aminoacylés présents dans l'ARN total d'Escherichia coli. Dans ce deuxième travail, note but est d'identifier tous les d'ARN aminoacylés par séquençage massif, avec à la clé la découverte possible de molécules autres que les ARNt et ARNtm. En utilisant les ARNt comme modèle, nous nous sommes aperçus qu'un protocole RNAseq standard n'était pas adapté à cause des bases modifiées présentes sur ces molécules. Nous avons développé et mis au point un nouveau protocole pour l'identification de n'importe quelle séquence aminoacylée en 3'. La nouvelle approche présentée devrait permette l'étude exhaustive de l'aminoacylation de toutes les séquences présentes dans l'ARN total. / Ribozymes are natural or in vitro selected RNA molecules possessing a catalytic activity. Artificial ribozymes have been extensively investigated by in vitro SELEX experiments, and characterized by kinetic assays. Ribozymes are involved in RNA cleavage, ligation, capping, polymerization, phosphorylation and acyl activation. Because it is required for translation, RNA aminoacylation plays an important role in the evolution from the late RNA world to the modern DNA and protein world, and is central to the genetic code. Several ribozymes catalyzing amino acid transfer from various activating groups have already been selected and characterized in the past two decades, documenting the possibility of tRNA aminoacylation in the absence of aminoacyl tRNA synthetase. With a newly designed SELEX protocol based on periodate oxydation, the aim of our investigation is to uncover small ribozymes of the order of 20 nucleotides that could catalyze both amino acid activation and transesterification. Although molecules catalyzing either reaction have been identified, no existing ribozyme could use free amino acids and activating cofactor(s) as substrates for 3' esterification in a single reactional context. The selection of active molecules in a SELEX procedure requires the presence of constant tracks on both ends of the sequences constituting the initial random pools. These tracks are required for PCR amplification, but they impose significant burden to the identification of ribozymes because they can prevent any activity through structural inhibition. We present an optimized protocol that significantly minimizes the size of these constant tracks. At the same time, our newly design protocol is very specific for the selection of 3'-end aminoacylated RNA. Working with this protocol, we performed 6 to 7 cycles of selection with different pools, and observed an enrichement with specific sequences. Although some experiments performed with entire pools did reveal a possible activity, no activity could be so far confirmed with specific sequences. A similar protocol was also applied in a parallel study to identify aminoacylated RNA from total RNA in Escherichia coli. In this other approach, our goal is to possibly identify new classes of aminoacylated RNA while using the deep sequencing technology. Using tRNA to validate our protocol, we realized that a standard RNAseq procedure could not work due to the presence of modified bases. We established a new method for bank preparation to identify any sequence aminoacylated at the 3' end. Ultimately, this new approach will allow us to study the level of aminoacylation of any sequence present in total RNA. Ribozyme SELEX Aminoacylation ARNt Deep-sequencing RNA-seq Ribozyme SELEX Aminoacylation . tRNA Deep-Sequencing RNA-seq
5	Functional Characterisation of Ribosome Biogenesis Cofactors in Saccharomyces cerevisiae Martin, Roman 23 January 2015 (has links) No description available. 570 ribosome biogenesis helicases snoRNA endonuclease deep sequencing Biologie (PPN619462639)
6	Deep Sequencing of the Mexican Avocado Transcriptome, an Ancient Angiosperm with a High Content of Fatty Acids Ibarra-Laclette, Enrique, Méndez-Bravo, Alfonso, Pérez-Torres, Claudia Anahí, Albert, Victor A., Mockaitis, Keithanne, Kilaru, Aruna, López-Gómez, Rodolfo, Cervantes-Luevano, Jacob Israel, Herrera-Estrella, Luis 13 August 2015 (has links) Background: Avocado (Persea americana) is an economically important tropical fruit considered to be a good source of fatty acids. Despite its importance, the molecular and cellular characterization of biochemical and developmental processes in avocado is limited due to the lack of transcriptome and genomic information. Results: The transcriptomes of seeds, roots, stems, leaves, aerial buds and flowers were determined using different sequencing platforms. Additionally, the transcriptomes of three different stages of fruit ripening (pre-climacteric, climacteric and post-climacteric) were also analyzed. The analysis of the RNAseqatlas presented here reveals strong differences in gene expression patterns between different organs, especially between root and flower, but also reveals similarities among the gene expression patterns in other organs, such as stem, leaves and aerial buds (vegetative organs) or seed and fruit (storage organs). Important regulators, functional categories, and differentially expressed genes involved in avocado fruit ripening were identified. Additionally, to demonstrate the utility of the avocado gene expression atlas, we investigated the expression patterns of genes implicated in fatty acid metabolism and fruit ripening. Conclusions: A description of transcriptomic changes occurring during fruit ripening was obtained in Mexican avocado, contributing to a dynamic view of the expression patterns of genes involved in fatty acid biosynthesis and the fruit ripening process. deep sequencing fatty acids transcriptome Biological Sciences Biology
7	Reactivation from occult HBV carrier status is characterized by low genetic heterogeneity with the wild-type or G1896A variant prevalence. / B型肝炎ウイルス潜伏感染者からのウイルス再活性化病態は野生株またはG1896A変異株の均質な感染に特徴づけられる Inuzuka, Tadashi 23 March 2016 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19593号 / 医博第4100号 / 新制\|\|医\|\|1014(附属図書館) / 32629 / 京都大学大学院医学研究科医学専攻 / (主査)教授松岡雅雄, 教授朝長啓造, 教授西渕光昭 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM HBV reactivation deep sequencing anti-HBc precore mutation immunosuppression 490
8	Les ARN de transfert, une nouvelle source de petits ARN non-codants chez Arabidopsis thaliana / tRNAs a new source of small non-coding RNAs in Arabidopsis thaliana Morelle, Geoffrey 17 March 2015 (has links) Au cours de ces 10 dernières années une nouvelle classe de petits ARN non-codants nommés "tRNA-derived fragments" (tRFs) a été caractérisée. Tandis que le rôle canonique des tRNA est bien connu, les raisons pour lesquels des fragments de tRNA s'accumulent dans la cellule restent inconnues. Actuellement, peu d'informations sont disponibles sur leurs biogenèses et leurs rôles biologiques, mais les preuves montrant leur importance dans la régulation de l'expression des gènes augmente régulièrement. Cependant, peu de données sont disponibles chez les plantes. A l'aide d’expérience de "deep-sequencing" et de northern blot nous avons confirmé l'existence d'une grande population en tRFs d'origine variée. A la suite de ces observations, trois questions sont établies. Tout d'abord, quelles sont les enzymes responsables de la biogenèse des tRFs. Ensuite, où les tRFs sont générés. Enfin, est-ce que les tRFs sont des sous-produits de la dégradation des tRNA ou ont-ils une fonction biologique? / During the last decade, a new class of small non-coding RNAs called tRNA-derived fragments (tRFs) has emerged. Whilst the canonic role of tRNA is well-known, the reason(s) why stable tRFs remains in the cell is unknown. Indeed, the number of tRFs has rapidly increased in various evolutionary divergent organisms. To date, only few data on their biogenesis and on their biological roles is known but their importance in the regulation of gene expression and in cell life is expanding. In plants, the existence of tRFs has also been reported but only few data are available. Using deep-sequencing on various small RNA libraries from Arabidopsis thaliana and Northern blots experiments, we confirmed the existence of a large but specific population of tRFs. Following these observations, three questions are addressed. First, what are the enzymes responsible for tRFs biogenesis, second where are tRFs generated and third, are tRFs merely degredation by-products or do they have biological functions? TRNA TRFs Deep-sequencing Petits ARN non-codants Endonucléase RNS TRNA TRFs Deep-sequencing Small non-coding RNA Endonuclease RNS 572.8
9	SR proteins in microRNA/mRNA biogenesis Wu, Han January 2011 (has links) <p>SR proteins are a family of splicing factors involved in the regulation of both constitutive and alternative splicing of pre-mRNAs. Despite years of studies, several big questions still remain: how the expression levels of SR proteins are regulated; what are the underlying mechanisms responsible for SR proteins-mediated gene regulation; what are the physiological targets of SR proteins in vivo. In my dissertation study, I am focusing on two members of the family, SF2/ASF and SRp20, to study their functional involvement in regulating microRNA/mRNA biogenesis and their own expression. </p><p>Negative feedback regulation is a common mechanism maintaining the steady-state level of SR proteins (i.e. SC35 and SRp20), and several mechanism may be involved. In order to test if miRNAs are also involved in such negative feedbacks, small RNA sequencing was used to identify differentially expressed miRNAs after SF2/ASF overexpression in an inducible stable cell line system. Among the 40 differentially expressed miRNAs, miR-7 is particularly interesting, because it is also predicted to target SF2/ASF, which forms a negative feedback regulation. This is indeed the case as shown by luciferase reporter assay and overexpression/knocking down of miR-7 in vivo. To our knowledge, this is the first identified negative feedback circuit between a SR protein and a miRNA, which may be a general mechanism in regulating SR protein homeostasis.</p><p>To characterize the mechanism underlying SF2/ASF-enhanced miRNA biogenesis, I have employed a series of molecular and biochemical approaches to pinpoint the key molecular interactions in a minigene system, which is consist of miR-7 embedded intron and the flanking exons of its host gene. By manipulating the splicing pattern of such minigene, I have uncovered a splicing-independent function of SF2/ASF in regulating miRNA biogenesis. Directly binding between SF2/ASF protein and pri-miR-7 was demonstrated by Cross-linking and immunoprecipitation assay (CLIP) and RNA affinity purification. The precise binding site was then pinpointed by combining computational prediction and mutagenesis assay. Finally, by using in vitro pri-miRNA processing assay, I showed that SF2/ASF can promote the Drosha cleavage step of pri-miR-7 through directly association with the predicted binding site. So far, this is the first SR protein discovered, which is directly involved in miRNA biogenesis. Moreover, our preliminary data also suggested that SF2/ASF may promote miRNA biogenesis in other steps after Drosha cleavage; and different SR proteins can regulate miRNA biogenesis in a substrate-specific manner. Taken together, SR family of splicing factors may be broadly involved in miRNA biogenesis through direct interactions.</p><p>In order to study the general involvement of SR proteins in RNA biogenesis, one important step stone is to have a better profile of their targets in vivo. To achieve this, I focused on SRp20, another classic SR protein. Photoactivatable-Ribonucleoside-Enhanced Cross-linking and immunoprecipitation assay combined with deep sequencing (PAR-CLIP-seq) was used to identify the binding partners of SRp20 globally, which is subsidized by candidate gene validations. Consistent with the literature, I found that SRp20 primarily targets exonic regions for splicing regulation, and such interactions are likely to be sequence dependent on the CWWCW motif. Surprisingly, I also observed extensive binding between SRp20 and the 3' UTRs of mRNA, which may affect the choice of alternative polyadenylation sites. The underlying mechanisms are being investigated by a variety of molecular methods. </p><p>In summary, I have identified a subset of miRNAs, the expression of which can be regulated by SF2/ASF in a splicing independent manner. This is the first SR protein identified in regulating miRNA biogenesis. One of the upregulated miRNAs, miRNA-7 can form a negative feedback with SF2/ASF by negatively regulating the expression of SF2/ASF on translational level. By using PAR-CLIP method, I have identified the genome-wide binding partners of SRp20 in vivo. When SRp20 binds to the exonic regions, it potentially affects the alternative splicing patterns of nearby introns. Interestingly, the 3' end choices for a subset of genes may be regulated by SRp20 through directly binding, which may be a new mechanism for the regulation of 3' end processing.</p> / Dissertation Molecular Biology Biology 3' UTR formation alternative splicing deep sequencing microRNA RNA binding protein SR proteins
10	The microbiological context of HIV resistance Schellenberg, John 06 July 2010 (has links) Immune activation is increasingly recognized as a critical element of HIV infection and pathogenesis, causing expansion of virus founder populations at the mucosal port of entry and eventual exhaustion of cellular immune effectors. A cohort of HIV-resistant (HIV-R) commercial sex workers (CSW) in Nairobi, Kenya, have increased levels of anti- inflammatory factors in vaginal secretions and reduced peripheral immune activation ("immune quiescence"). The mucosal immune micro-environment underlying HIV susceptibility is well-known to be influenced by concurrent sexually transmitted infections, however the role of commensal microbiota is poorly characterized. Bacterial vaginosis (BV), characterized by a shift from Lactobacillus to Gardnerella and Prevotella as dominant members of vaginal microbiota, is a risk factor for HIV acquisition in studies worldwide. However, the etiology and ecological dynamics of BV remain enigmatic, and the mechanisms by which BV increases HIV susceptibility are not fully defined. Protective functional characteristics of Lactobacillus microbiota, including acid and hydrogen peroxide (H2O2) production, may reinforce physicochemical defences of vaginal mucus, stimulate innate epithelial defences and/or modulate activation status of HIV target cells. Therefore, the goal of this study was to determine if reduced BV and increased Lactobacillus colonization are the basis for resistance to HIV in this cohort. Vaginal specimens from a group of 242 CSW were examined, including microscopic diagnosis of BV, culture-based functional analyses and phylogenetic profiling by ultra-deep sequencing. HIV-R individuals were just as likely to have BV compared to other HIV- negative (HIV-N) individuals, and no more likely to be colonized with acid- or H2O2- ii producing bacteria, however two BV-related phylotypes identified by deep sequencing were significantly more likely to be observed in HIV-N individuals (p=0.0002 and p=0.006). HIV+ individuals were significantly more likely than HIV– individuals to have E. coli detected by deep sequencing (p<0.0001) and less likely to have Lactobacillus crispatus (p=0.0006). A coherent set of differences in culture-based and culture- independent characteristics were observed in individuals with BV diagnoses compared to BV– individuals. This study has generated an unprecedented amount of information regarding the composition, structure and function of the vaginal microbiota in African CSW, fundamentally defining many aspects of BV microbiology. Elucidation of the relationship between complex microbial communities and protective mucosal responses against HIV infection should be a priority for future research. Vaginal microbiota HIV resistance chaperonin-60 deep sequencing Lactobacillus bacterial vaginosis

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