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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.
151

Stability And Recovery Of Rna In Biological Stains

Setzer, Mindy Eileen 01 January 2004 (has links)
In theory, RNA expression patterns, including the presence and relative abundance of particular RNA species, provide cell and tissue specific information that could be of use to forensic scientists. An mRNA based approach could allow the facile identification of the tissue components present in a body fluid stain and conceivably could supplant the battery of serological and biochemical tests currently employed in the forensic serology laboratory. Some of the potential advantages include greater test specificity, and the ability to perform simultaneous analysis using a common assay format for the presence of all body fluids of forensic interest. In this report, the recovery and stability of RNA in forensic samples was evaluated by conducting an in-depth study on the persistence of RNA in biological stains. Stains were prepared from blood, saliva, semen, and vaginal secretions, and were exposed to a range of environmental conditions so that the affects of different light sources, temperatures, and environments could be assessed. Using the results from quantitation and sensitivity studies performed with pristine forensic stains, the RNA stability of samples which were collected over a period of 1 day to 1 year for blood, saliva, and vaginal secretion stains and for up to 6 months for semen stains were analyzed. The extent of RNA degradation within each type of body fluid stain was determined using quantitation of total RNA and reverse transcriptase polymerase chain reaction (RT-PCR) with selected housekeeping and tissue-specific genes. The results show that RNA can be recovered from biological stains in sufficient quantity and quality for mRNA analysis. The results also show that mRNA is detectable in samples stored at room temperature for at least one year, but that heat and humidity appear to be very detrimental to the stability of RNA.
152

Simulations of Non-Enzymatic Template Directed RNA Replication

Chamanian, Pouyan January 2022 (has links)
The universal traits of cellular expression and replication in modern life point to the existence of an ancient RNA world. Leading up to the origin of life, this stage of evolution utilized RNA as the genetic material, and as a catalyst in the form of ribozymes. Although it is expected that a polymerase ribozyme was required for the efficient replication of RNA, it is also likely that the earliest form of replication took place under non-enzymatic conditions. There are several problems with the current scenarios depicting non-enzymatic RNA replication, thus we aim to examine them in more detail using computational models. We first consider the relationship between the thermodynamics of RNA base pairing and non-enzymatic nucleotide addition in an attempt to model the rate of primer extension. Our predicted rates reveal the model parameters to be too simple to produce reliably accurate results. For now, we should simply use available experimental rate data, until we have access to more data and less unknown parameters. Nevertheless, the model indicates that the primer extension rate does depend on thermodynamics of base pairing, and a more accurate model can be of great use when creating realistic complex models of RNA world scenarios. In chapter 3, we investigate non-enzymatic RNA replication under temperature cycling using computer simulations. When starting with a diverse mixture of sequences, partially matching sequences can reanneal in configurations that allow continued strand growth. This is in contrast to the case of having multiple copies of matching sequences, where reannealing occurs quickly upon cooling. We find that, starting with short oligomers, strands can grow over multiple cycles to produce long sequences over 100 nucleotides in length. The small strand extension per cycle does not produce replicates of any one specific sequence. This relates to the work done in chapter 4, where we look for the presence of a virtual circular genome within our simulations. In a virtual circle, short overlapping RNA sequences will make up a mutually catalytic set. Within the diversity of our simulation, virtual circles are rare, and require a specific level of starting mixture diversity along with no input of new sequences. Continued replication of the diverse sequence mixture and emergence of long strands may eventually lead to the creation of rolling circles and ribozymes. / Thesis / Master of Science (MSc) / The origin of biological life can be traced back by looking at the common themes between modern cellular processes. The role of RNA polymers seems to be of great importance, making us believe that an RNA world existed leading up to life’s origin. During this time, RNA would act as both a genetic material and a catalyst. To examine this theory in more detail, we use computational modeling to recreate and explore the various potential chemistries and conditions on the early Earth. Specifically, we explore the problems that exist for the replication and production of RNA polymers. Our results can be used to guide future theoretical and experimental research of the RNA world.
153

The nucleotide sequences of five lysine tRNAs from murine lymphoma and Balb/3T3

Hayenga, Kirk J. January 2011 (has links)
Typescript (photocopy). / Digitized by Kansas Correctional Industries
154

RNA editing and autophagy in Drosophila melanogaster

Paro, Simona January 2012 (has links)
Post-transcriptional regulation of gene expression involves a diverse set of mechanisms such as RNA splicing, RNA localization, and RNA turn-over. Adenosine to Inosine (A-to-I) RNA editing is an additional post-transcriptional regulatory mechanism. Temporally, it occurs after transcription and before RNA splicing and has been shown in some instances to possibly modulate alternative splicing events. This is the case for example, with the pre-mRNA encoding the GluR- 2 subunit of AMPA receptor, a glutamate-activated ion channel. ADAR (Adenosine deaminase acting on RNA) proteins bind to double-stranded regions in pre-messenger RNAs. They deaminate specific adenosines, generating inosines; if the editing event occurs within the coding region, inosine is then interpreted as guanosine by the ribosomal translational machinery, changing codon meaning. These editing events can increase the repertoire of translated proteins, generating molecular diversity and modifying protein function. In mammals there are four ADAR genes: ADAR1, ADAR2, ADAR3 and TENR. ADAR3 and TENR are enzymatically inactive. All the proteins have two types of functional domains: (i) the catalytic deaminase domain at the carboxyl-terminus and (ii) the double stranded RNA binding domains, dsRBDs, at the amino terminus. ADAR1 and ADAR2 differ significantly at the amino terminus, by the number of the dsRNA binding domains (three and two dsRBDs for ADAR1 and ADAR2 protein, respectively). The differences observed between ADAR1 and ADAR2 are likely to reflect the different repertoires of substrates edited by these two enzymes. Data concerning the conservation of Adar genes throughout evolution suggest that Drosophila melanogaster has a unique Adar gene which is a true ortholog of human ADAR2 rather than an invertebrate gene ancestral for both vertebrate genes. Flies that are null mutants for Adar (Adar5G1 mutants) display profound behavioral and locomotive deficits. Impairment in motor activity of the mutants is succeeded by age-dependent neurodegeneration, characterized by swelling within the Adar-null mutant fly brain. The initial focus of my thesis was to elucidate what causes Adar mutant phenotypes or, whether it is possible, to suppress them. I took advantage of Drosophila genetics to establish a forward genetic screen for suppressors of reduced Adar5G1 viability which is approximately 20-30% in comparison to control flies at eclosion. The results from an interaction screen on Chromosome 2L were further confirmed using Exelixis P-element insertion lines. The screen revealed that decreasing Tor (Target of rapamycin) expression suppresses Adar mutant phenotypes. TOR plays a role in maintaining cellular homeostasis by balancing the metabolic processes. It controls anabolic events by phosphorylating eukaryotic translation initiation factor 4E-binding protein (4E-BP) and p70 S6 kinase (S6K) and inducing cap-mediated translation. However, different types of stress, signals or increased demand in catabolic processes, converge to reduce TOR enzymatic activity. This results in long-lived proteins and organelles being engulfed in double-membrane vesicles and degraded; this bulk degradation process is called (macro)autophagy. The second aim of my thesis was to clarify which pathway, downstream to TOR, was responsible for the suppression of Adar-null phenotypes. I mimicked the effect of reduced Tor expression by manipulating genetically the cap-dependent translation and the autophagy pathways. Interestingly, boosting the expression of Atg (autophagy specific genes) genes, such as, Atg1 and Atg5, thereby increasing the activation rate of the autophagy pathway, suppresses Adar5G1 phenotypes. Finally, I found that Adar5G1 mutant flies have an increased level of autophagy that is observable from the larval stage. I investigated possible stresses affecting our mutants; Adar-mutant larval fat cells show ER stress triggering an unfolded protein response as indicated by expression of XbpI-eGFP reporter. Thus, ER stress might induce increased autophagy and it can lead to locomotive impairments and neurodegeneration in Adar-null mutants. These results suggest a function for the Adar gene in regulating cellular stress.
155

Interactions of picornavirus internal ribosome entry sites with cellular proteins

Stassinopoulos, Ioannis A. January 2000 (has links)
No description available.
156

Identification and characterization of E3 ubiquitin ligase SIAH1 as a regulatory target of microRNA-135a in HeLa cells

梁靄褳, Leung, Oi-ning. January 2008 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
157

A study of microRNA-132 and -212 in murine granulosa cells during folliculogenesis

Lin, Sau-wah, Selma., 林秀華. January 2010 (has links)
published_or_final_version / Obstetrics and Gynaecology / Doctoral / Doctor of Philosophy
158

The role of FIS in tyrT transcriptional regulation

Lazarus, Linda Ruth January 1992 (has links)
No description available.
159

Expression and immunogenicity of Theiler's virus proteins

Johnston, Ian Charles David January 1994 (has links)
No description available.
160

The accumulation of proteins in the Xenopus oocyte nucleus

Dingwall, C. January 1985 (has links)
The ability of proteins to accumulate in the nucleus has been studied by injecting nucleoplasmin and calf thymus histone H1 into the cytoplasm of Xenopus oocytes. Nucleoplasmin, the most abundant protein in the Xenopus oocyte nucleus is pentameric and proteolysis of the nuceloplasmin pentamer produces a relatively protease resistant 'core' molecule that cannot enter the nucleus after microinjection into the cytoplasm. The polypeptide domain ('lq tail') of each subunit removed by proteolysis was obtained as a discrete fragment and has the ability to accumulate in the nucleus. Partially cleaved pentameric molecules with a single intact sub unit can still accumulate in the nucleus. Therefore a polypeptide domain of nucleoplasmin has been found that is both necessary and sufficient for accumulation in the nucleus. When the `core' molecule was injected directly into the oocyte nucleus it remained there, indicating that the 'tail' region confers selective entry rather than selective retention. In the case of histone H1 a proteolytic fragment encompassing the carboxyterminal domain can accumulate in the nucleus. The amino acids lysine, proline and alanine comprise 75 of the 89 amino acids in this fragment. Since the remaining 14 amino acids are scattered throughout the fragment and not clustered any primary sequence specifying entry into the nucleus would seem necessarily to involve the amino acids lysine, proline and alanine. Positive charge alone cannot explain the accumulation of this gragment since poly L-lysine does not accumulate after microinjection into the cytoplasm. Fragments encompassing other domains of the molecule are so unstable in the oocyte that their ability to accumulate in the oocyte nucleus cannot be assayed. The gene for nucleoplasmin has been cloned and sequences have been found in the 'tail' region of nuceloplasmin that show homology to sequences identified in other nuclear proteins that appear to constitute a signal specifying nuclear localisation.

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