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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.
31

The development of reconstituted translation system for peptidomimetic mRNA display synthesis

Stojanovic, Vesna 05 1900 (has links)
The generation of high affinity, selective, and in vivo-stable peptide-based drugs is currently a major challenge in the field of drug development. Technologies exist that permit the generation of a vast diversity of chemical and conformational space and an example of such a technology is mRNA display, which utilizes protein translation machinery to produce a wide array of polypeptides starting from a combinatorial library of mRNA templates. The intention of this research was to bridge mRNA display to a reconstituted translation system using protein synthesis using recombinant elements (PURE) system for a new drug discovery platform. We hypothesized that it is possible to generate mRNA-peptidomimetic fusions using reconstituted translation system and chemo-enzymatically charged tRNAs, to incorporate unnatural amino acids into mRNA-peptidomimetic fusions. Upon demonstating that the reconstituted system was functional, we have synthesized hexapeptide fusion products containing four alanine residues and one biocytin residue. Fusions were assayed using urea-PAGE in the presence of streptavidin which allowed for unambiguous evaluation of the full length fusion fraction. It was determined that overall more fusion product was generated with template that codes for biocytin early in the coding sequence, but that the percent of biocytin-containing product stays similar regardless of the biocytin place in the coding region. We have also found that the change in template untranslated region length does not improve incorporation of biocytin in dipeptide fusions within the tested range. Finally, after first unsuccessful attempts to make sarcosine hexapeptide fusions, we investigated the effect of magnesium ion concentration on the translation reaction. As a result of four series of experiments performed involving both alanine and sarcosine fusion synthesis in parallel, we concluded that an increase in magnesium concentration from 5 mM to 20 mM coincided with enabling of the reconstituted system in making hexapeptide fusions with sarcosine in a significantly high number of cases. This research work arises from the need to enable a new drug discovery tool that will allow both synthesis and affinity maturation of peptide-based compounds. It represents our pioneering efforts to develop a new technology and ultimately help bring to existence compounds of significant therapeutic value.
32

Cloning and annotation of novel transcripts from human embryonic stem cells

Khattra, Jaswinder 05 1900 (has links)
Both cDNA tag-based and DNA chip hybridization assays have revealed widespread transcriptional activity across mammalian genomes, providing a rich source of novel protein-coding and non-coding transcripts. Annotation and functional evaluation of this undefined transcriptome space represents a major step towards the comprehensive definition of biomolecules regulating the properties of living cells, including embryonic stem cells (ESCs) and their derivatives. In this study I analysed 87 rare mRNA transcripts from human ESCs that mapped uniquely to the human genome, in regions lacking evidence for known genes or transcripts. In addition, the transcripts appeared enriched in the hESC transcriptome as enumerated by serial analysis of gene expression (SAGE). Full-length transcripts corresponding to twelve novel LongSAGE tags were recovered and evaluated with respect to gene structure, protein-coding potential, and gene regulatory features. In addition, transcript abundance was compared between RNA isolated from undifferentiated hESCs and differentiated cells. Analysis of full-length transcripts revealed that the novel ORFs did not exceed a size of 129 amino acids and no matches were observed to well characterized protein domains. Interesting protein level predictions included small disulfide-bonded proteins, known members of which are important in a variety of biological processes. Transcripts evaluated for differential expression by real-time RT-qPCR (Reverse Transcription followed by real-time quantitative Polymerase Chain Reaction) were found to be variably expressed (0.2- to 4.5-fold) in Day-2 or Day-4 retinoic acid-induced differentiation cultures compared to undifferentiated hESCs. Relative quantitation using a universal reference RNA (derived from pooled adult tissues) showed large differences in novel transcript levels (0.002- to 35-fold) compared to hESCs. Collectively, these results provide a detailed analysis of a set of novel hESC transcripts and their abundance in early and adult differentiated cell types, both of which may advance our understanding of the transcriptional events governing stem cell behavior.
33

Cloning and annotation of novel transcripts from human embryonic stem cells

Khattra, Jaswinder 05 1900 (has links)
Both cDNA tag-based and DNA chip hybridization assays have revealed widespread transcriptional activity across mammalian genomes, providing a rich source of novel protein-coding and non-coding transcripts. Annotation and functional evaluation of this undefined transcriptome space represents a major step towards the comprehensive definition of biomolecules regulating the properties of living cells, including embryonic stem cells (ESCs) and their derivatives. In this study I analysed 87 rare mRNA transcripts from human ESCs that mapped uniquely to the human genome, in regions lacking evidence for known genes or transcripts. In addition, the transcripts appeared enriched in the hESC transcriptome as enumerated by serial analysis of gene expression (SAGE). Full-length transcripts corresponding to twelve novel LongSAGE tags were recovered and evaluated with respect to gene structure, protein-coding potential, and gene regulatory features. In addition, transcript abundance was compared between RNA isolated from undifferentiated hESCs and differentiated cells. Analysis of full-length transcripts revealed that the novel ORFs did not exceed a size of 129 amino acids and no matches were observed to well characterized protein domains. Interesting protein level predictions included small disulfide-bonded proteins, known members of which are important in a variety of biological processes. Transcripts evaluated for differential expression by real-time RT-qPCR (Reverse Transcription followed by real-time quantitative Polymerase Chain Reaction) were found to be variably expressed (0.2- to 4.5-fold) in Day-2 or Day-4 retinoic acid-induced differentiation cultures compared to undifferentiated hESCs. Relative quantitation using a universal reference RNA (derived from pooled adult tissues) showed large differences in novel transcript levels (0.002- to 35-fold) compared to hESCs. Collectively, these results provide a detailed analysis of a set of novel hESC transcripts and their abundance in early and adult differentiated cell types, both of which may advance our understanding of the transcriptional events governing stem cell behavior.
34

The development of reconstituted translation system for peptidomimetic mRNA display synthesis

Stojanovic, Vesna 05 1900 (has links)
The generation of high affinity, selective, and in vivo-stable peptide-based drugs is currently a major challenge in the field of drug development. Technologies exist that permit the generation of a vast diversity of chemical and conformational space and an example of such a technology is mRNA display, which utilizes protein translation machinery to produce a wide array of polypeptides starting from a combinatorial library of mRNA templates. The intention of this research was to bridge mRNA display to a reconstituted translation system using protein synthesis using recombinant elements (PURE) system for a new drug discovery platform. We hypothesized that it is possible to generate mRNA-peptidomimetic fusions using reconstituted translation system and chemo-enzymatically charged tRNAs, to incorporate unnatural amino acids into mRNA-peptidomimetic fusions. Upon demonstating that the reconstituted system was functional, we have synthesized hexapeptide fusion products containing four alanine residues and one biocytin residue. Fusions were assayed using urea-PAGE in the presence of streptavidin which allowed for unambiguous evaluation of the full length fusion fraction. It was determined that overall more fusion product was generated with template that codes for biocytin early in the coding sequence, but that the percent of biocytin-containing product stays similar regardless of the biocytin place in the coding region. We have also found that the change in template untranslated region length does not improve incorporation of biocytin in dipeptide fusions within the tested range. Finally, after first unsuccessful attempts to make sarcosine hexapeptide fusions, we investigated the effect of magnesium ion concentration on the translation reaction. As a result of four series of experiments performed involving both alanine and sarcosine fusion synthesis in parallel, we concluded that an increase in magnesium concentration from 5 mM to 20 mM coincided with enabling of the reconstituted system in making hexapeptide fusions with sarcosine in a significantly high number of cases. This research work arises from the need to enable a new drug discovery tool that will allow both synthesis and affinity maturation of peptide-based compounds. It represents our pioneering efforts to develop a new technology and ultimately help bring to existence compounds of significant therapeutic value. / Pharmaceutical Sciences, Faculty of / Graduate
35

Cloning and annotation of novel transcripts from human embryonic stem cells

Khattra, Jaswinder 05 1900 (has links)
Both cDNA tag-based and DNA chip hybridization assays have revealed widespread transcriptional activity across mammalian genomes, providing a rich source of novel protein-coding and non-coding transcripts. Annotation and functional evaluation of this undefined transcriptome space represents a major step towards the comprehensive definition of biomolecules regulating the properties of living cells, including embryonic stem cells (ESCs) and their derivatives. In this study I analysed 87 rare mRNA transcripts from human ESCs that mapped uniquely to the human genome, in regions lacking evidence for known genes or transcripts. In addition, the transcripts appeared enriched in the hESC transcriptome as enumerated by serial analysis of gene expression (SAGE). Full-length transcripts corresponding to twelve novel LongSAGE tags were recovered and evaluated with respect to gene structure, protein-coding potential, and gene regulatory features. In addition, transcript abundance was compared between RNA isolated from undifferentiated hESCs and differentiated cells. Analysis of full-length transcripts revealed that the novel ORFs did not exceed a size of 129 amino acids and no matches were observed to well characterized protein domains. Interesting protein level predictions included small disulfide-bonded proteins, known members of which are important in a variety of biological processes. Transcripts evaluated for differential expression by real-time RT-qPCR (Reverse Transcription followed by real-time quantitative Polymerase Chain Reaction) were found to be variably expressed (0.2- to 4.5-fold) in Day-2 or Day-4 retinoic acid-induced differentiation cultures compared to undifferentiated hESCs. Relative quantitation using a universal reference RNA (derived from pooled adult tissues) showed large differences in novel transcript levels (0.002- to 35-fold) compared to hESCs. Collectively, these results provide a detailed analysis of a set of novel hESC transcripts and their abundance in early and adult differentiated cell types, both of which may advance our understanding of the transcriptional events governing stem cell behavior. / Medicine, Faculty of / Medical Genetics, Department of / Graduate
36

Vitrification of Bovine Oocytes

Anchamparuthy, Vahida Muhammed Ismail 19 February 2008 (has links)
Cryopreservation of oocytes is a challenge. Studies were conducted to vitrify mouse zygotes and cumulus-intact bovine oocytes from follicles of different diameters, small (≤ 4 mm) and medium (4 to 10 mm), using nylon mesh. The specific goals were to assess changes in apoptotic gene expression (Fas-FasL, Bax, Bcl-2, and survivin) in conjunction with terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) and caspase assays. Mouse zygotes were exposed to increasing concentrations of ethylene glycol (EG), Ficoll-70 and sucrose in phosphate buffered saline (PBS) for vitrification on nylon mesh and plunged into liquid nitrogen. Warming resulted in 81.7% morphological survival. The rate of blastocyst formation was 59.9% for vitrified zygotes but, this was significantly lower than that of non vitrified embryos (66.2%). There was no difference in the hatching rates between groups. Both Fas and FasL mRNA were detected at the 4-cell and morula stages, suggesting Fas signaling was operational in early embryos. The level of expression of Bax mRNA tended to increase, while expression of survivin mRNA was not different for 2- and 4-cell embryos. Fragmented embryos showed an increase in Bax mRNA levels, while survivin mRNA level was reduced. In the second experiment, vitrification of bovine oocytes was carried out. Pre-cooled cryovials resulted in 98.9% morphological survival. The oocytes from small and medium size follicles had a significant impact on cleavage (53.7 ± 1.6% vs. 43.8 ± 1.6%, respectively) and blastocyst rates were 16.9 ± 1.0% and 11 ± 1.2%, respectively. Follicle size for oocytes had no impact on the expression of apoptotic genes. The Fas-FasL and Bax-Bcl-2 mRNA showed increased expression after vitrification, but tended to decrease after 9 h of maturation. Yet, results from TUNEL and caspase assays did not support the evidence of the downstream apoptotic signaling pathway in embryos. The semen utilized for in vitro fertilization in both vitrified and control oocytes responded differently in the 4 tested bulls than their field fertility record. The altered transcriptional activities of apoptotic genes, Fas-FasL and Bax-Bcl-2, and survivin were indicative of possible apoptotic activity in vitrified embryos and oocytes subjected to in vitro fertilization. / Ph. D.
37

Nucleocytoplasmic transport ofmRNA in Saccharomyces cerevisiae

Kadowaki, Tatsuhiko January 1994 (has links)
No description available.
38

The Interplay of Eukaryotic mRNA Translation and Degradation

Hu, Wenqian January 2010 (has links)
No description available.
39

THE TWO ISOFORMS OF RAT METALLOTHIONEIN ARE COORDINATELY REGULATED IN VIVO

Todd, Diane, M. January 2003 (has links)
No description available.
40

Studies in microrna function and gene dysregulation in ovarian cancer

Hill, Christopher G. 12 January 2015 (has links)
Ovarian cancer results from the dysregulation, in normal ovarian epithelial cells, of genes responsible for the control of critical biological processes. Since their discovery 20 years ago, microRNAs have increasingly been implicated in that dysregulation due to their role mediating gene expression; changes in microRNA expression levels in cancer have been linked with tumor growth, proliferation and metastasis. Their imputed involvement in cancer has led to the possibility of their use as biomarkers and to their potential clinical use. Using mRNA and microRNA microarray analysis to compare human gene expression in normal ovarian surface epithelial (OSE) cells and epithelial ovarian cancer (EOC) cells, we explored the interactions between microRNAs and genes. First, we validated in silico predictions of microRNA targets by comparing them with in vitro evidence after exogenous microRNA transfection. We found that pairs of microRNAs with identical 7-nt (nucleotide) seed regions shared 88% of their predicted targets and 55% of their in vitro targets, confirming the importance of the seed as a targeting mechanism. But more importantly, we found that even a single nucleotide change in the seed region can result in a significant shift in the set of targeted genes, implying strong functional conservation of the seeds and their corresponding binding sites. Next, we discovered a 3-element network motif which explains the upregulation of nearly 800 genes in ovarian cancer which, as predicted microRNA targets, might be expected to be down- regulated. This model shows that, under certain circumstances, repressor genes which are down- regulated in cancer can apparently override the repressive effects of microRNAs, resulting in the upregulation of predicted microRNA targets. Finally, we developed a phenomenological network model, based on the Pearson correlation of microarray gene expression data, to identify subnetworks dysregulated in cell cycle and apoptosis. While our methodology reported many genes previously associated with ovarian cancer, it significantly suggested potentially oncogenic genes for further investigation. This network model can easily be extended to identify dysregulated genes in other cancers.

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