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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Transposon Regulation: Control of Expression in Drosophila Melanogaster and Consequences of Disregulation in Human Cells

Peterson, Maureen January 2011 (has links)
Transposons were first discovered as "jumping genes" by Barbara McClintock, who continued to study them in maize through the 1940's and 1950's. Since then, transposons have been shown to make up a large percentage of eukaryotic genomes, including close to half of the human genome, but have been dismissed as simply "junk DNA." Recently, the importance of keeping transposons tightly regulated within the cellular environment has begun to be appreciated; the mechanisms to accomplish this have been studied and the current understanding of pathways governing transposon regulation is discussed within this dissertation. However, recent work presented within the scope of this dissertation in Drosophila melanogaster revealed a previously unknown function for condensin complexes in transposable element regulation. These studies provide a link between pathways governing chromosome pairing and transposon regulation. The potential interplay between these two pathways is intriguing and until now, largely unexplored.Aside from how transposons themselves are regulated, studies into potential roles they may play in the regulation of other protein coding genes within the cell may provide clues into the functionality of these elements within our genome. As a specific example, BRCA1 has a high density of retrotransposon sequences within its primary transcript, and studies of BRCA1 regulation presented within this dissertation has led to the development of a model for a novel gene regulatory mechanism occurring in human cells involving retrotransposons. This mechanism may provide direct relevance to cancer etiology, as retrotransposons have long been known to be misregulated in cancer.As a sum, the work presented within this dissertation extends our knowledge of how transposons are regulated and provides some of the first evidence for their functionality in gene regulatory pathways within human cells.
2

Characterisation of the zinc fingers of Erythroid Kruppel-Like Factor

Hallal, Samantha January 2008 (has links)
Doctor of Philosophy (PhD) / Gene expression is known to be regulated at the level of transcription. Recently, however, there has been a growing realisation of the importance of gene regulation at the post-transcriptional level, namely at the level of pre-mRNA processing (5’ capping, splicing and polyadenylation), nuclear export, mRNA localisation and translation. Erythroid krüppel-like factor (Eklf) is the founding member of the Krüppel-like factor (Klf) family of transcription factors and plays an important role in erythropoiesis. In addition to its nuclear presence, Eklf was recently found to localise to the cytoplasm and this observation prompted us to examine whether this protein has a role as an RNA-binding protein, in addition to its well-characterised DNA-binding function. In this thesis we demonstrate that Eklf displays RNA-binding activity in an in vitro and in vivo context through the use of its classical zinc finger (ZF) domains. Furthermore, using two independent in vitro assays, we show that Eklf has a preference for A and U RNA homoribopolymers. These results represent the first description of RNA-binding by a member of the Klf family. We developed a dominant negative mutant of Eklf by expressing its ZF region in murine erythroleukaemia (MEL) cells. We used this to investigate the importance of this protein in haematopoietic lineage decisions by examining its effect on the multipotent K562 cell line. We provide evidence that Eklf appears to be critical not only for the promotion of erythropoiesis, but also for the inhibition of megakaryopoiesis.
3

Post-transcriptional Gene Regulation in the Vascular Endothelium: Implications of Hypoxia

Ho, Jr Jyun 09 January 2014 (has links)
Cellular messenger RNAs (mRNAs) exist almost exclusively in the context of ribonucleoprotein complexes (RNPs), which are largely responsible for the coordinated regulation of mRNA fate, and in particular, the post-transcriptional regulation of mRNA stability and translation. RNA- binding proteins, antisense RNAs, and microRNAs represent three major classes of post- transcriptional regulatory factors that interact with target mRNAs. Significantly, these interactions are dynamically regulated under both basal and stress conditions, such as hypoxia. Given the prominent contributions of post-transcriptional regulation to overall gene expression, a more comprehensive understanding of the underlying mechanisms is required. In this thesis, we present exciting new evidence for the functional importance of post- transcriptional gene regulation, especially in the vascular endothelium. Firstly, we show that the formation of hnRNP E1-containing RNPs contributes significantly to the remarkable basal stability of endothelial nitric oxide synthase (eNOS) mRNAs in endothelial cells by protecting them from inhibitory post-transcriptional forces. However, hypoxia impairs such RNP formation through hnRNP E1 serine phosphorylation and nuclear localization. Together, these mechanisms contribute significantly to decreased eNOS expression and activity in chronic hypoxia. ii Secondly, we reveal an important functional relationship between the microRNA pathway and the HIF-mediated cellular hypoxic response. Specifically, the down-regulation of Dicer and an important number of Dicer-dependent microRNAs in chronic hypoxia represents an important adaptive mechanism that serves to maintain the cellular hypoxic response through HIF-α- and microRNA-dependent mechanisms, with significant implications for the development of RNAi- based therapies. Finally, we provide evidence that the up-regulation of specific microRNAs in acute hypoxia is a potentially important mechanism that serves to suppress global translation initiation in order to conserve energy and ensure cellular survival. Collectively, the findings presented in this thesis provide important new mechanistic insight into the post-transcriptional regulation of eNOS, as well as the functional integration of the microRNA and the cellular hypoxic response pathways.
4

Post-transcriptional Gene Regulation in the Vascular Endothelium: Implications of Hypoxia

Ho, Jr Jyun 09 January 2014 (has links)
Cellular messenger RNAs (mRNAs) exist almost exclusively in the context of ribonucleoprotein complexes (RNPs), which are largely responsible for the coordinated regulation of mRNA fate, and in particular, the post-transcriptional regulation of mRNA stability and translation. RNA- binding proteins, antisense RNAs, and microRNAs represent three major classes of post- transcriptional regulatory factors that interact with target mRNAs. Significantly, these interactions are dynamically regulated under both basal and stress conditions, such as hypoxia. Given the prominent contributions of post-transcriptional regulation to overall gene expression, a more comprehensive understanding of the underlying mechanisms is required. In this thesis, we present exciting new evidence for the functional importance of post- transcriptional gene regulation, especially in the vascular endothelium. Firstly, we show that the formation of hnRNP E1-containing RNPs contributes significantly to the remarkable basal stability of endothelial nitric oxide synthase (eNOS) mRNAs in endothelial cells by protecting them from inhibitory post-transcriptional forces. However, hypoxia impairs such RNP formation through hnRNP E1 serine phosphorylation and nuclear localization. Together, these mechanisms contribute significantly to decreased eNOS expression and activity in chronic hypoxia. ii Secondly, we reveal an important functional relationship between the microRNA pathway and the HIF-mediated cellular hypoxic response. Specifically, the down-regulation of Dicer and an important number of Dicer-dependent microRNAs in chronic hypoxia represents an important adaptive mechanism that serves to maintain the cellular hypoxic response through HIF-α- and microRNA-dependent mechanisms, with significant implications for the development of RNAi- based therapies. Finally, we provide evidence that the up-regulation of specific microRNAs in acute hypoxia is a potentially important mechanism that serves to suppress global translation initiation in order to conserve energy and ensure cellular survival. Collectively, the findings presented in this thesis provide important new mechanistic insight into the post-transcriptional regulation of eNOS, as well as the functional integration of the microRNA and the cellular hypoxic response pathways.
5

Characterisation of the zinc fingers of Erythroid Kruppel-Like Factor

Hallal, Samantha January 2008 (has links)
Doctor of Philosophy (PhD) / Gene expression is known to be regulated at the level of transcription. Recently, however, there has been a growing realisation of the importance of gene regulation at the post-transcriptional level, namely at the level of pre-mRNA processing (5’ capping, splicing and polyadenylation), nuclear export, mRNA localisation and translation. Erythroid krüppel-like factor (Eklf) is the founding member of the Krüppel-like factor (Klf) family of transcription factors and plays an important role in erythropoiesis. In addition to its nuclear presence, Eklf was recently found to localise to the cytoplasm and this observation prompted us to examine whether this protein has a role as an RNA-binding protein, in addition to its well-characterised DNA-binding function. In this thesis we demonstrate that Eklf displays RNA-binding activity in an in vitro and in vivo context through the use of its classical zinc finger (ZF) domains. Furthermore, using two independent in vitro assays, we show that Eklf has a preference for A and U RNA homoribopolymers. These results represent the first description of RNA-binding by a member of the Klf family. We developed a dominant negative mutant of Eklf by expressing its ZF region in murine erythroleukaemia (MEL) cells. We used this to investigate the importance of this protein in haematopoietic lineage decisions by examining its effect on the multipotent K562 cell line. We provide evidence that Eklf appears to be critical not only for the promotion of erythropoiesis, but also for the inhibition of megakaryopoiesis.
6

New Insights Into the Relationship Between Messenger RNA Translation and Degradation

Sweet, Thomas Jeffrey January 2011 (has links)
No description available.
7

Mechanisms of MiRNA-based Gene Regulation in C. elegans and Human Cells

January 2019 (has links)
abstract: Multicellular organisms use precise gene regulation, executed throughout development, to build and sustain various cell and tissue types. Post-transcriptional gene regulation is essential for metazoan development and acts on mRNA to determine its localization, stability, and translation. MicroRNAs (miRNAs) and RNA binding proteins (RBPs) are the principal effectors of post-transcriptional gene regulation and act by targeting the 3'untranslated regions (3'UTRs) of mRNA. MiRNAs are small non-coding RNAs that have the potential to regulate hundreds to thousands of genes and are dysregulated in many prevalent human diseases such as diabetes, Alzheimer's disease, Duchenne muscular dystrophy, and cancer. However, the precise contribution of miRNAs to the pathology of these diseases is not known. MiRNA-based gene regulation occurs in a tissue-specific manner and is implemented by an interplay of poorly understood and complex mechanisms, which control both the presence of the miRNAs and their targets. As a consequence, the precise contributions of miRNAs to gene regulation are not well known. The research presented in this thesis systematically explores the targets and effects of miRNA-based gene regulation in cell lines and tissues. I hypothesize that miRNAs have distinct tissue-specific roles that contribute to the gene expression differences seen across tissues. To address this hypothesis and expand our understanding of miRNA-based gene regulation, 1) I developed the human 3'UTRome v1, a resource for studying post-transcriptional gene regulation. Using this resource, I explored the targets of two cancer-associated miRNAs miR-221 and let-7c. I identified novel targets of both these miRNAs, which present potential mechanisms by which they contribute to cancer. 2) Identified in vivo, tissue-specific targets in the intestine and body muscle of the model organism Caenorhabditis elegans. The results from this study revealed that miRNAs regulate tissue homeostasis, and that alternative polyadenylation and miRNA expression patterns modulate miRNA targeting at the tissue-specific level. 3) Explored the functional relevance of miRNA targeting to tissue-specific gene expression, where I found that miRNAs contribute to the biogenesis of mRNAs, through alternative splicing, by regulating tissue-specific expression of splicing factors. These results expand our understanding of the mechanisms that guide miRNA targeting and its effects on tissue-specific gene expression. / Dissertation/Thesis / Doctoral Dissertation Molecular and Cellular Biology 2019
8

Análise exploratória em larga escala de microRNAs expressos em tilápia do Nilo utilizando ferramentas de bioinformática

Bovolenta, Luiz Augusto. January 2016 (has links)
Orientador: Ney Lemke / Resumo: MicroRNAs (miRNAs) são pequenas moléculas de RNA que regulam pós-transcricionalmente a expressão de genes, modelando o transcriptoma e a produção de proteínas. Em geral, os miRNAs são conservados no genoma de eucariotos, sendo considerados elementos vitais em diversos processos biológicos durante o desenvolvimento, tais como crescimento, diferenciação e morte celular. A grande diversidade de miRNAs identificados está restrita a poucas espécies e apenas uma parte do total de alvos de miRNAs preditos foi caracterizada funcionalmente. Nesse contexto, o uso da tecnologia de sequenciamento de alto rendimento (high throughput sequencing) atrelada à análise de nível transcricional por RT-qPCR possibilitam a identificação do microRNoma. A tilápia do Nilo, Oreochromis niloticus, é considerada um excelente modelo biológico para o estudo de miRNAs em vertebrados devido à sua importância econômica e evolutiva. O presente trabalho teve como objetivos: organizar os dados do sequenciamento dos miRNAs da tilapia do Nilo; disponibilizá-los em forma de uma base de dados para a comunidade científica; integrar as informações dos miRNAs identificados com outros bancos de dados de miRNAs; analisar os dados através de análises de bioinformática para determinação de agrupamentos definidos pelo nível de expressão de cada miRNA em seis tipos de tecido (músculo branco, músculo vermelho, testículo, ovário, fígado, olho, cérebro e coração) com distinção entre os gêneros e nas fases do desenvolvimento (2,... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor
9

The Molecular Function of the RNA Binding Protein DAZL in Male Germ Cell Survival

Zagore, Leah Louise 24 January 2020 (has links)
No description available.
10

Characterizing the Disorder in Tristetraprolin and its Contribution to Post-Transcriptional Gene Regulation: A Dissertation

Deveau, Laura M. 05 May 2016 (has links)
RNA-binding proteins (RBPs) are important for a wide variety of biological processes involved in gene regulation. However, the structural and dynamic contributions to their biological activity are poorly understood. The tristetraprolin (TTP) family of RBPs, including TTP, TIS11b and TIS11d, regulate the stability of mRNA transcripts encoding for key cancer-related proteins, such as tumor necrosis factor- and vascular endothelial growth factor. Biophysical studies have shown that the RNA binding domain, consisting of two CCCH zinc fingers (ZFs), is folded in the absence of RNA in TIS11d and TIS11b. In TTP, however, only ZF1 adopts a stable fold, while RNA is required to completely fold the tandem zinc finger (TZF). The focus of this research was to understand the origin and biological significance of the structural differences observed for the TZF domains of TTP and TIS11d. Three residues were shown to control the affinity for the structural Zn2+ and determine the folding of ZF2 in the absence of RNA. The partially-folded TZF domain of TTP has greater selectivity for RNA sequences than the fully folded TZF domain of TIS11d. The mRNA destabilizing activity of TTP was increased when the partially disordered RBD of TTP was replaced with the fully structured TZF domain of TIS11d. Disruption of the structure and/or dynamics of the TZF domain observed in the disease-associated mutations of TIS11d, P190L and D219E, results in aberrant cytoplasmic localization. This work demonstrates that the extent of RBD folding in the TTP family is important for differential RNA recognition, mRNA turnover, and protein localization in vivo.

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