Global ETD Search

1	Patterns of Two Types of Overlapping Genes in Five Mammalian Genomes Sanna, Chaitanya Ramesh 11 September 2006 (has links) Increasing evidence suggests that overlapping genes is a common phenomenon in eukaryotic genomes too and are not restricted to prokaryotes alone. Here we determined overlapping genes in a set of orthologous genes in the genomes of human, chimp, mouse, rat, and dog and contrasted the patterns of overlapping between two principal types of overlapping genes, the same-strand-overlapping genes and different-strand-overlapping genes. The two types of overlapping genes are compared with respect to their frequencies, overlap lengths, region of overlap, and conservation of overlap in five species. Our results suggest the following: different-strand-overlaps are more common, both types show different patterns with respect to overlap lengths and regions of overlap, different-strand-overlapping genes are more evolutionarily conserved, and 3'-UTR evolution plays an important role in transitions between non-overlapping genes and overlapping genes. The thesis also presents a review of related work in terms of history, origin, types, biological significance of overlapping genes, human diseases associated with them, and their comparison in prokaryotes and eukaryotes. / Master of Science 3'- UTR overlapping genes same strand different strand 5'-UTR
2	Translational Regulation of Bovine Casein Kim, Julie Jungmi 04 January 2013 (has links) Messenger RNA transcripts of αs2- and к-casein are translated at 25% of the efficiency of αs1- and β-casein transcripts; however, the molecular mechanisms governing the difference are unknown. We hypothesized that the bovine casein translational efficiency is influenced by characteristics of the untranslated regions (UTRs) and coding regions. The main objective of this study was to identify molecular mechanisms that explain differential translational regulation between bovine β- and αs2-casein by assessing the role of each putative translational regulatory factor found throughout full-length sequences in both in cellular and cell-free translation systems. This dissertation begins with the cloning and initial characterization of bovine β- and αs2-casein. Transcript analysis indicates that the two genes share similar characteristics of nucleotide sequence around the coding region and secondary structure. It is confirmed that αs2-casein mRNA has a lower translational efficiency compared to that of β-casein in a cell-free system. The latter portion of this thesis investigates further the UTRs and codon usage effect on difference in translational efficiency between β- and αs2-casein. Overall, our data suggest that β-casein 3’ UTR and αs2-casein 5’ UTR exert stimulatory effects on translation yet their effectiveness depends on the upstream and downstream sequences with which they are associated. Replacement of the UTRs of αs2-casein mRNA with those of β-casein did not stimulate translation. A stronger effect on translational efficiency was found in the coding region of αs2-casein which displays unfavourable codons at the 3’ terminus. Deletion of a 28-codon fragment from the 3’ terminus of the αs2-casein coding region increased translation to a par with β-casein. We suggest that the last 28 codons of αs2-casein is the main regulatory sequence that attenuates its expression and is responsible for the different translational expression of β- and αs2-casein mRNAs. Identification of regulatory factors that are responsible for translation efficiency improves our understanding of the molecular mechanisms of control of milk protein prodiction in secretory cells of the bovine mammary glands. / NSERC canada mRNA translation regulation UTR Codon usage
3	Caractérisation des gènes candidats régulés au niveau traductionnel durant la réponse de défense NB-LRR des plantes Barff, Teura January 2018 (has links) Parmi les différents mécanismes de défense des plantes, on compte notamment la Effector-Triggered immunity (ETI) qui repose sur l’activation de protéines de résistance, les NB-LRR (Nucleotide-Binding Leucine-Rich-repeat). Plusieurs études tentant de caractériser cette réponse immunitaire en ont conclu suite à des analyses transcriptomiques, qu’elle était qualitativement similaire à la première étape de défense. Cette première étape repose sur la reconnaissance de motifs moléculaires associés aux agents pathogènes (Pattern-triggered immunity). Très récemment, suite à l’analyse du traductome d’A. thaliana après induction de la ETI, de nombreux gènes avec une efficacité de traduction découplée de leur transcription ont été identifiés. Ainsi, de nouveaux acteurs de la réponse de défense enclenchée par l’activation d’une protéine NB-LRR ont été identifiés, certains d’entre eux étant inhibés au niveau de la traduction et d’autres induits au niveau post-transcriptionnel. Parmi ces candidats, certains sont connue pour être impliquée dans la résistance aux stress abiotiques et biotiques, tel que Redox Responsive Transcription Factor 1 (RRTF1), Phosphorylcholine Cytidylyltransferase 2 (CCT2) ou encore Pentatricopeptide repeat protein for Germination on NaCl (PGN). D’autres ont fait l’objet de nombreuses études comme c’est le cas de Target Of Rapamycin (TOR), BIG, ou CBL-interacting protein kinase 5 (CIPK5) mais n’ont jusqu’à maintenant jamais été mis en lien avec la résistance des végétaux. Enfin, un petit nombre d’entre eux, dont AT1G07280 renommé ici TPR (Tetratricopeptide repeat-like), n’ont encore jamais été caractérisés. Afin de mieux comprendre le rôle de ces protéines dans la réponse de défense des plantes, la susceptibilité de lignées transgéniques knock out pour les gènes candidats, suite à l’infection par différents agents pathogènes, a été testée. Trois pathosystèmes ont été utilisés, comprenant la plante modèle Arabidopsis thaliana, et les agents pathogènes Pto DC3000 (avirulent ou virulent), H. a. et PlAMV dans chacun des systèmes. Ainsi, en accord avec les données du traductome de défense de la plante modèle, des régulateurs négatifs (TOR, CIPK5 et CIPK25) et positifs (BIG, CCT2, RRTF1) du système de défense basal et de type NB-LRR d’A. thaliana ont été identifiés. De plus, deux des candidats régulés au niveau de la traduction durant la ETI, ne semblent avoir un impact significatif que sur la PTI : LEA et TPR. Par la suite, à travers le clonage de la région transcrite, mais non traduite (UTR) de certains gènes candidats, nous avons tenté de caractériser le ou les mécanismes responsables de la régulation de leur traduction. Enfin, dans le but de déterminer si ce phénomène de régulation traductionnelle est conservé chez différentes espèces végétales, nous avons étudié l’expression de BIG, TOR et CIPK5 après activation d’une protéine NB-LRR chez N. benthamiana. Même si les deux derniers volets de ce projet n’ont pas abouti à des résultats concluants, les nombreuses analyses menées ici ont permis de confirmer l’implication de plusieurs gènes candidats dans la résistance des plantes. De plus, cette étude a aussi permis d’identifier la reprogrammation de la traduction comme étant une étape clé à l’établissement d’une réponse de défense végétale efficace. Résistance végétale Régulation post-transcriptionnelle ETI UTR
4	Evaluation of 5´- and 3´-UTR Translation Enhancing Sequences to Improve Translation of Proteins in CHO Cells Einarsson, Ellen January 2018 (has links) The purpose of this project was to identify and evaluate nucleotide sequences enhancing translation of proteins in Chinese hamster ovary (CHO) cells. Candidate sequences were placed in the 5´-untranslated region (UTR) or 3´ UTR respectively and evaluated in a CHO-based expression system with a fluorescent Fc-fusion protein as a model protein.Five plasmid vectors were constructed, two of which designed to have a randomized nucleotide library in their 5´ and 3´ UTR respectively, and three of which designed to hold varying repeats of a known enhancing translation (ET) sequence in their 5´ or 3´ UTR. The plasmid constructs were transfected into CHO cells and the protein expression was analyzed both by fluorescence intensity in single cells using flow cytometry and in bulk by monoclonal antibody titer analysis based on Protein A affinity.The main result is that both flow cytometry and titer analysis indicate that insertion of five repeats of the ET in the 5´UTR has a negative effect on protein expression as compared to the control which had no ET repeats. Results related to the insertion of three ETs in the 5´ UTR were ambiguous. The titer analysis indicated that it had a negative effect on the protein expression compared to the control which had no ET repeats, whereas the flow cytometry results suggest that the effect is negligible. Transfection of library plasmids was unsuccessful; hence no library expression analysis results were achieved. Due to the time constraints of the project, the reason for the unsuccessful transfection of library plasmids was not investigated, but the LTX transfection method is stated as a highly plausible cause.Based on the outcome of this study, two recommendations for future work are suggested. The first one is to continue the focus on UTR sequences in terms of library screening, and to improve the method of transfecting library plasmid constructs into CHO cells using lipofection. The second suggestion for further studies is to test different UTR sequence lengths without involving potential ETs, to rule out the effect and positions of the ETs and investigate the expressional effect of UTR length solely. Regulation Untranslated regions 5´ UTR 3´ UTR mRNA Expression Flow cytometry Pharmaceutical Biotechnology Läkemedelsbioteknik
5	Análise da região 5 não traduzida (5 utr) em sequências anotadas como trans-sialidase no genoma de Trypanosoma cruzi Tainah Silva Galdino de Paula 04 May 2009 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / A transsialidase é uma glicoproteína de membrana pertencente a uma família de genes de cópia múltipla, envolvida no processo de invasão celular do Trypanosoma cruzi no hospedeiro vertebrado. Esta dissertação foi concebida com um amplo componente analítico que dependia de dados publicamente disponíveis, ou seja, as sequências oriundas do projeto genoma de T. cruzi e cDNAs de trans-sialidase depositadas no Genbank-dbEST. Este componente analítico necessitou ser complementado e ampliado com a obtenção experimental de novas sequências, a partir da metodologia baseada na transcrição reversa acoplada a PCR. Os fragmentos obtidos de cepas de T. cruzi Dm28c (T. cruzi I), Y (T. cruzi II), CL-Brener (T. cruzi II, cepa híbrida), INPA4167 (zimodema III), 3663 (zimodema III) e Colombiana (zimodema III) foram clonados, sequenciados e analisados composicionalmente. Essas sequências foram editadas e alinhadas usando-se o software CLUSTAL X. Em uma seção específica do Genbank, denominada dbEST, buscamos os cDNAs homólogos a trans-sialidase. Esta busca por similaridade foi realizada individualmente com os números de acesso referentes às seqüências supracitadas contra o dbEST utilizando o BLAST a fim de obtermos informações funcionais e evolutivas. Em seguida, desenvolvemos metodologias experimentais que nos permitiu avaliar segmentos da 5 UTR, tais como os sítios de trans-splicing adicionais ou múltiplos em TS e seus respectivos sinais (região rica em polipirimidina), variação composicional e tamanho da região das sequências entre diferentes linhagens de T. cruzi. O resultado dessa averiguação também nos mostrou a quantidade de cDNAs relacionados com a transsialidase no dbEST bem como a relação desses cDNAs com o mini-exon. As cepas do zimodema III apresentaram tamanho médio dos fragmentos de 312 bases, enquanto T. cruzi I e T. cruzi II apresentaram, respectivamente 209 e 218. Trans splicing adicional ou duplicações gênicas com mutações no sítio primário de trans splicing não parece ser um fenômeno exclusivo de algum grupo populacional, embora seja mais evidente em T. cruzi zimodema III. Trypanosoma cruzi Trans-Sialidase 5 UTR Trypanosoma cruzi Trans-Sialidase 5 UTR PARASITOLOGIA
6	Análise da região 5 não traduzida (5 utr) em sequências anotadas como trans-sialidase no genoma de Trypanosoma cruzi Tainah Silva Galdino de Paula 04 May 2009 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / A transsialidase é uma glicoproteína de membrana pertencente a uma família de genes de cópia múltipla, envolvida no processo de invasão celular do Trypanosoma cruzi no hospedeiro vertebrado. Esta dissertação foi concebida com um amplo componente analítico que dependia de dados publicamente disponíveis, ou seja, as sequências oriundas do projeto genoma de T. cruzi e cDNAs de trans-sialidase depositadas no Genbank-dbEST. Este componente analítico necessitou ser complementado e ampliado com a obtenção experimental de novas sequências, a partir da metodologia baseada na transcrição reversa acoplada a PCR. Os fragmentos obtidos de cepas de T. cruzi Dm28c (T. cruzi I), Y (T. cruzi II), CL-Brener (T. cruzi II, cepa híbrida), INPA4167 (zimodema III), 3663 (zimodema III) e Colombiana (zimodema III) foram clonados, sequenciados e analisados composicionalmente. Essas sequências foram editadas e alinhadas usando-se o software CLUSTAL X. Em uma seção específica do Genbank, denominada dbEST, buscamos os cDNAs homólogos a trans-sialidase. Esta busca por similaridade foi realizada individualmente com os números de acesso referentes às seqüências supracitadas contra o dbEST utilizando o BLAST a fim de obtermos informações funcionais e evolutivas. Em seguida, desenvolvemos metodologias experimentais que nos permitiu avaliar segmentos da 5 UTR, tais como os sítios de trans-splicing adicionais ou múltiplos em TS e seus respectivos sinais (região rica em polipirimidina), variação composicional e tamanho da região das sequências entre diferentes linhagens de T. cruzi. O resultado dessa averiguação também nos mostrou a quantidade de cDNAs relacionados com a transsialidase no dbEST bem como a relação desses cDNAs com o mini-exon. As cepas do zimodema III apresentaram tamanho médio dos fragmentos de 312 bases, enquanto T. cruzi I e T. cruzi II apresentaram, respectivamente 209 e 218. Trans splicing adicional ou duplicações gênicas com mutações no sítio primário de trans splicing não parece ser um fenômeno exclusivo de algum grupo populacional, embora seja mais evidente em T. cruzi zimodema III. Trypanosoma cruzi Trans-Sialidase 5 UTR Trypanosoma cruzi Trans-Sialidase 5 UTR PARASITOLOGIA
7	Implication du facteur de transcription dans Nkx2.2 gliomagenesis / Implication of the Nkx2.2 transcription factor in gliomagenesis Falha, Layal 18 December 2014 (has links) Glioblastome représente la tumeur la plus courante du cerveau primaire avec une survie de moins de 2 ans. Ces tumeurs sont très infiltrantes et angiogéniques et contiennent une sous population de cellules souches cancéreuses. Nkx2.2 est un homéodomaine facteur de transcription, impliqué dans la formation d'oligodendrocytes au cours du développement. Nkx2.2 joue un rôle central dans la tumorogenèse de Ewing'sarcoma. L'utilisation de la QPCR et de la matrice du tissu de gliome, nous a permis de mettre en évidence la forte expression de Nkx2 dans le glioblastome. Nkx2.2 a également été détecté dans 3 cultures de cellules de gliomes où il est co-exprimé avec des marqueurs de cellules souches tels que CD133 et CD15. Il a été récemment proposé que la surexpression de Nkx2.2 pourrait induire à la différenciation oligodendrocytaire de la cellule du gliome tige-comme et au blocage de la formation des tumeurs dans la xénotransplantation (Cancer Res fév 2011 1; 71 (3): 1135-1145). Pour explorer cette possibilité, nous avons utilisé des rétrovirus pour surexprimer Nkx2.2 dans nos cultures cellulaires. De manière surprenante, nous avons trouvé que Nkx2.2, induit la prolifération des cellules souches du gliome et n'a en conséquent aucun effet de différenciation. Microarray analyses a confirmé que la surexpression de Nkx2.2 n'a en effet aucune influence sur la différenciation des oligodendrocytes. Cette analyse a également révélé que Nkx2.2 était capable d'induire une forte expression de YKL-40 40 dans le surnageant des cellules souches du gliome. YKL-40 est en fait, une glycoprotéine sécrétée et impliquée dans l'inflammation, l'angiogenèse et la prolifération. Elle est souvent associée à un mauvais pronostic dans plusieurs types de cancers. En outre, nous avons effectué une transplantation orthotopique afin d'explorer le rôle de Nkx2.2 dans la gliomagenèse in vivo et avons constaté que Nkx2.2 ne réduit pas l'agressivité du glioblastome.Dans l'autre partie de ma thèse, nous avons utilisé la gamme Taqman à basse densité et la validation des miRNA par la Qpcr afin de chercher ces derniers dans la culture cellulaire du glioblastome humain. Nous avons ensuite étudié le rôle des miARN dans la transcription de 3'UTR de Nkx2.2. Les résultats d'analyse de la mutagénèse dirigée (SDM) et de la double-luciférase ont montré que l'expression de Nkx2.2 est régulée par la diminution de mir-133b ainsi que celle de mir-202. / Glioblastoma represent the most common primary brain tumor with an overall survival of less than 2 years. These tumors are highly infiltrative and angiogenic and contain a sub population of cancer stem cells. Nkx2.2 is a homeodomain transcription factor which is implicated in the formation of oligodendrocytes during development. Nkx2.2 is central in tumorogenesis of Ewing'sarcoma. Using QPCR and glioma tissue array, we found that Nkx2.2 is highly expressed in glioblastoma. Nkx2.2 was also detected in 3 glioma stem-like cell cultures (neurospheres) where it is co-expressed with stem cell markers such as CD133 and CD15. It was recently proposed that overexpression of Nkx2.2 could induce terminal oligodendrocytic differentiation of glioma stem-like cell and inhibit tumor formation in xenotransplantation (Cancer Res. 2011 Feb 1;71(3):1135-45).To explore this possibility further, we used retroviruses to overexpress Nkx2.2 in our cell cultures. Surprisingly, we found that Nkx2.2, induce glioma stem cell proliferation and had no oligodendrocyte differentiating effect. Microarray analyses confirmed that Nkx2.2 overexpression had no influence in oligodendrocyte differentiation. This analysis further revealed that Nkx2.2 was able to induce a strong expression of YKL40 protein in the supernatant of glioma stem cells and increase YKL-40 promoter activity. YKL-40 is a secreted glycoprotein which is involved in inflammation, angiogenesis and proliferation and which is often associated with a bad prognosis in several cancers. In addition, we performed orthotopic transplantation to explore the role of Nkx2.2 in gliomagenesis in vivo and found that Nkx2.2 did not reduce the aggressiveness of glioblastoma. In the other part of my thesis we used Taqman low-density arrays (TLDA) and individual miRNA QPCR validation to find the microRNA (miRNA) signature in human glioblastoma cell cultures. Then we investigated the role of miRNA in the 3'UTR of Nkx2.2 transcript. Site directed mutagenesis (SDM) and dual-Luciferase reporter assay results showed that the Nkx2.2 expression is downregulated by mir-133b and mir-202. Gliome Nkx2.2 3'utr Facteur de transcription MiRNA Cerveau Glioma Nkx2.2 3'utr Transcription factor MiRNA Brain
8	The Reactive Carbonyl Methylglyoxal Suppresses Vascular KATP Channels by MRNA Destabilization Konduru, Anuhya S 16 November 2011 (has links) Diabetes mellitus is characterized by hyperglycemia, oxidative stress and excessive production of intermediary metabolites including methylglyoxal (MGO), a reactive carbonyl. MGO can readily interact with proteins, lipids and DNA, and cause an imbalance of the cellular antioxidant system leading to carbonyl stress. The effects of MGO can be devastating if the targeted molecules are responsible for the maintenance of membrane potentials and ionic homeostasis. Here we show that MGO disrupts the vascular isoform of ATP-sensitive K+ (KATP) channels by acting on the mRNAs of Kir6.1 and SUR2B subunits thereby regulating vascular tone. Our results show that the 3’ untranslated region (UTR) of Kir6.1 mRNA and the coding region of SUR2B mRNA are targeted by MGO causing a disruption of vascular KATP channels. The destabilization of the mRNAs of KATP channel can in turn affect K+ homeostasis of vascular smooth muscles as well as vascular responses to circulating vasodilators and vasoconstrictors. Kir6.1 SUR2B Methylglyoxal UTR vascular tone carbonyl stress
9	Insights into subgenomic RNA synthesis in coronaviruses from structural and biophysical studies Li, Lichun 15 May 2009 (has links) The 5’ untranslated region (UTR) of coronaviral genomes contains cis-acting sequences necessary for replication, transcription and translation. A consensus secondary structural model of the 5' 140 nucleotides of the 5' UTRs of nine coronaviruses (CoVs) derived from all three major CoV groups is presented and characterized by three major stem loops, SL1, SL2 and SL4. SL2 is conserved in all CoVs, typically containing a pentaloop (C47-U48-U49-G50-U51 in MHV) stacked on a 5-bp stem, with some sequences containing an additional U 3' to U51. NMR structural studies of SL2 hairpin reveal that SL2 adopts a U-turn-like conformation. Parallel molecular genetic experiments reveal that SL2 plays an essential role in sgRNA synthesis as does SL1. We observe strong genetic selection against viruses that contain a deletion of A35, an extrahelical nucleotide that destabilizes SL1, in favor of genomes that contain a diverse panel of destabilizing second-site mutations, due to introduction of a collection of non-canonical base pairs near the deleted A35. Viruses containing destabilizing SL1-∆A35 mutations also contain one of two specific single nucleotide mutations in the 3' UTR. Thermal denaturation and imino proton solvent exchange experiments reveal that the lower half of SL1 is unstable and that second-site SL1-∆A35 substitutions recover one or more features of the wild-type SL1. We propose a "dynamic SL1" model that supports viral replication; these characteristics of SL1 appear to be conserved in other coronaviral genomes. The coronaviral nucleocapsid (N) protein contains two or more RNA binding domains. We investigated the RNA-binding properties of the N-terminal (NTD) and Cterminal (CTD) domain of MHV N. Our results reveal that the NTD specifically interacts with the TRS-L3 sequence. The role of conserved residues (Y127, Y129 and R110) for this specific interaction were systematically investigated. In contrast to the NTD, the MHV CTD is homodimeric in solution and binds single-strand RNA nonspecifically in a binding mode of the noncooperative large ligand lattice model. The CTD dimer binds with a site size, n=4 nucleotide and the appending of the NTD enhances the single-strand nucleic acid binding affinity. coronavirus 5' UTR RNA structure NMR nucleocapsid protein
10	Characterization of the 3' terminal 42 nucleotide host protein binding element of the mouse hepatitis virus 3' untranslated region Johnson, Reed Findley 30 September 2004 (has links) Mouse Hepatitis virus (MHV) is a member of the coronavirus family in the order Nidovirales. The 32 kb genome contains cis-acting sequences necessary for replication of the viral genome. Those cis-acting sequences have been shown to bind host proteins, and binding of those proteins is necessary for virus replication. One of the cis-acting elements is the 3' terminal 42 nucleotide host protein binding element. Previous work has demonstrated that mitochondrial aconitase, mitochondrial heat shock protein 70, heat shock protein 60 and heat shock protein 40 bind to the 3' terminal 42 nucleotide host protein binding element. We demonstrated that RNA secondary structure of the 3' terminal 42 nucleotide host protein binding element is necessary for host protein binding in vitro. We also demonstrate that primary structure of the 3' terminal 42 nucleotide host protein binding element is necessary for viral replication by targeted recombination. DI replication assays infer that the 3' terminal 42 nucleotide host protein binding element plays a role in positive strand synthesis from the negative strand template. Current studies involve the infectious cDNA clone, which will provide definitive answers on the role of the 3' terminal 42 nucleotide host protein binding element in MHV replication. Mouse Hepatitis Virus replication virus 3'UTR host protein interaction

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