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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.
101

Molecular characterization of a subset of KRAB-ZFPs

Unknown Date (has links)
There are approximately 20,000 genes in the human genome. Around 2% of these genes code for transcriptional repressors known as KRAB-ZFPs. It is already known that Zinc-Finger Proteins contain two main functional domains at either end of the polypeptide. In today's database, you will find a KRAB (Kruppell-associated Box) domain at one end and a tandem array of Zinc-finger repeats at the other end. The carboxyl terminal tandem Zinc-finger repeats function as sequence-specific DNA-binding domains. The amino terminal KRAB domain serves as a repressor domain, which will recruit a co-repressor termed KAP-1 (KRAB Associated Protein-1). Located in between these two domains is a region of uncharacterized DNA referred to as the "Linker Region". This thesis will explore the DNA-binding domains of 6 known KRAB-ZFPs, as well as utilize the linker regions to derive an evolutionary history for this superfamily. / by Alain Chamoun. / Thesis (M.S.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web.
102

Transient viral infection of plant tissue culture and plants for production of virus and foreign protein

Shih, Sharon Min-Hsuan , Biotechnology & Biomolecular Sciences, Faculty of Science, UNSW January 2007 (has links)
This work was aimed to investigate the basic viral infection protocols mainly focusing on Nicotiana benthamiana hairy root cultures and wild-type tobacco mosaic virus (TMV). The application of transgenic virus containing the gene for green fluorescent protein (GFP) for foreign protein production in plant tissue cultures and whole plants was also studied. The effect on viral accumulation of the form of plant tissue culture used, such as hairy roots, shooty teratomas and suspended cells, was investigated. Viral infection was shown to have no effect on culture growth and morphology. Hairy root cultures are a superior host for viral propagation and production in vitro. The maximum specific rate of viral accumulation occurred mainly during the root growth phase. The average maximum virus concentration in the hairy roots was 0.82 ?? 0.14 mg g-1 dry weight and virus protein represented a maximum of approximately 6% of total soluble protein in the root biomass. Proportional scale-up of TMVinfected hairy roots in shake flasks and bioreactors can be achieved without changing the average virus concentration accumulated in the hairy roots. The level of viral accumulation was much lower in N. benthamiana hairy roots infected with transgenic virus containing GFP (TMVGFPC3) compared with TMV and low levels or no GFP was detected. Viral accumulation and GFP production in whole plants was studied using different generations of transgenic TMV-GFPC3 virus. Hybrid viruses with the foreign gene GFPC3 deleted may have been formed in successive TMV-GFPC3 generations, resulting in the loss of GFP production and enhanced viral infectivity. In vitro generated RNA transcript and first generation TMV-GFPC3 were found to be more suitable for infection than the second generation TMV-GFPC3. However, the accumulation of GFP and virus concentration did not occur at the same ratio. Provided a more genetically stable transgenic viral vector is used for infection, transient viral infection of hairy roots can be a potential alternative system for foreign protein production than plants grown in the field as the containment or safety issues can be addressed.
103

Studies of CD44 variant isoform expression and function on activated human peripheral blood mononuclear cells and in renal transplantation

Varelias, Antiopi. January 2001 (has links) (PDF)
Errata slip inserted at back "August 2001." Includes bibliographical references (leaves 254-296)
104

Studies of CD44 variant isoform expression and function on activated human peripheral blood mononuclear cells and in renal transplantation / Antiopi Varelias.

Varelias, Antiopi January 2001 (has links)
Errata slip inserted at back / "August 2001." / Includes bibliographical references (leaves 254-296) / xxviii, 296, [9] leaves : charts (some col.), plates (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Medicine, 2001
105

Intercalator-mediated assembly of nucleic acids

Horowitz, Eric D. 06 April 2009 (has links)
The RNA World hypothesis suggests that RNA, or a proto-RNA, existed in an early form of life that had not yet developed the ability to synthesize protein enzymes. This hypothesis, by some interpretations, implies that nucleic acid polymers were the first polymers of life, and must have therefore spontaneously formed from simple molecular building blocks in the "prebiotic soup." Although prebiotic chemists have searched for decades for a process by which RNA can be made from plausible prebiotic reactions, numerous problems persist that stand in the way of a chemically-sound model for the spontaneous generation of an RNA World (e.g., strand-cyclization, heterogeneous backbones, non-selective ligation of activated nucleotides). The Molecular Midwife hypothesis, proposed by Hud and Anet in 2000, provides a possible solution to several problems associated with the assembly of the first nucleic acids. In this hypothesis, nucleic acid base pairs are assembled by small, planar molecules that resemble molecules which are known today to intercalate the base pairs of nucleic acid duplexes. Thus, the validity and merits of the Molecular Midwife hypothesis can be, to some extent, explored by studying the effects of intercalation on the non-covalent assembly of nucleic acids. In this thesis, I explore the role of the sugar-phosphate backbone in dictating the structure and thermodynamics of nucleic acid intercalation by using 2′,5′-linked RNA intercalation as a model system of non-natural nucleic acid intercalation. The solution structure of an intercalator-bound 2′,5′ RNA duplex reveals structural and thermodynamic aspects of intercalation that provide insight into the origin of the nearest-neighbor exclusion principle, a principle that is uniformly obeyed upon the intercalation of natural (i.e. 3′,5′-linked) RNA and DNA. I also demonstrate the ability of intercalator-mediated assembly to circumvent the strand-cyclization problem, a problem that otherwise greatly limits the polymerization of short oligonucleotides into long polymers. Together, the data presented in this thesis illustrate the important role that the nucleic acid backbone plays in governing the thermodynamics of intercalation, and provide support for the proposed role of intercalator-mediated assembly in the prebiotic formation of nucleic acids.
106

Characterization of mitochondrial C₁-tetrahydrofolate synthase transcript and protein expression in adult and embryonic mammalian tissues and the role of the mitochondrial one-carbon pathway in the cytoplasmic methyl cycle

Pike, Schuyler Todd, 1966- 01 October 2012 (has links)
In eukaryotes, folate-dependent one-carbon (1-C) metabolism is composed of two parallel pathways compartmentalized to either the cytoplasm or mitochondria. In each, 1-C units, carried on tetrahydrofolate (THF), are interconverted by four catalytic activities. Serine hydroxymethyltransferase transfers the 3-carbon of serine to THF forming 5,10-methylene-THF which is oxidized in 3 successive steps to formate via the intermediates, 5,10-methenyl-THF and 10-formyl-THF. Because of the redox potential in each compartment, 1-C flux is thought by most authors to be from formate to serine in the cytosol and in the opposite direction in mitochondria. Transport of serine, glycine and formate across the mitochondrial membranes creates a 1-C cycle. All eukaryotes characterized to date contain a cytoplasmic trifunctional C1-THF synthase possessing 5,10-methylene-THF dehydrogenase, 5,10-methenyl-THF cyclohydrolase and 10-formyl-THF synthetase activities which interconvert the catalytic intermediates between 5,10-methylene-THF and formate. However, despite the observation that adult rat liver mitochondria oxidize serine to formate, no known enzymatic activities correlate with those of cytoplasmic C1-THF synthase. In embryos, a bifunctional protein, containing 5,10-methylene-THF dehydrogenase and 5,10-methenyl-THF cyclohydrolase, accounts for two of these activities. But the 10-formyl-THF synthetase activity has no associated enzyme in mitochondria. Reported here is the discovery of a monofunctional homolog of C1-THF synthase in mammalian mitochondria. Characterization of the protein confirms mitochondrial localization and 10-formyl-THF synthetase activity. Likewise, the adult human transcript is present and differs in size and tissue distribution from cytosolic C1-THF synthase. In mouse embryos, the temporal expression of the mRNA starts out relatively low and increases as the embryos age. The spatial distribution of the transcript is ubiquitous but with areas of elevated expression corresponding to proliferative regions within the embryo. The temporal expression pattern of the protein and transcript correspond well. However, mitochondrial flux studies and immunoblotting data suggest that mitochondrial C1-THF synthase is not the rate-limiting enzyme in mitochondria, at least during the mid to later stages of embryogenesis. Additionally, studies modulating the expression of mitochondria 1-C proteins demonstrate the likelihood that most cytoplasmic 1-C units are mitochondrially derived. / text
107

Phosphorylation of plant translation initiation factors by CK2

Dennis, Michael Don, 1980- 29 August 2008 (has links)
Protein kinase CK2 phosphorylates wheat eIF2, eIF3, eIF4B, eIF5 and three 60S ribosomal proteins. The substrate specificity of CK2[alpha] toward various plant initiation factor substrates was altered in vitro through holoenzyme formation in the presence of regulatory [beta]-subunits. This presents a potential mechanism through which the differential expression and sub-cellular distribution of CK2 [beta]-subunits could regulate phosphorylation of various CK2 substrates in plants. Our analysis of initiation factor phosphopeptides produced by in vitro phosphorylation identified 20 CK2 phosphorylation sites in eIF2[alpha], eIF2[beta], eIF3c, eIF4B, and eIF5. Native wheat eIF5 was prepared in the presence of phosphatase inhibitors and analyzed by mass spectrometry. Native wheat eIF5 was determined to be a phosphoprotein containing at least 3 phosphorylation sites. The C-terminal CK2 site (S451) of native eIF5 was completely phosphorylated, and tryptic fragments containing the other in vitro CK2 two sites (S209, T240) also appear to be partially phosphorylated. Many of the CK2 phosphorylation sites identified are in conserved binding domains of the yeast multifactor complex (eIF1/eIF3/eIF5/eIF2/GTP/Met-tRNAi[superscript Met). This observation lead to the hypothesis that CK2 phosphorylation may regulate the formation of plant multifactor complexes. The results presented here suggest that plant initiation factors are capable of forming complexes similar to those previously reported in yeast. The in vitro interaction of initiation factors within these complexes appears to be enhanced by phosphorylation of eIF2, eIF3c, and eIF5 by CK2. Site-directed mutagenesis of eIF5 to remove CK2 phosphorylation sites not only prevents the CK2 mediated increase in interaction with eIF1, but also resulted in reduced stimulation of translation initiation in vitro. / text
108

Electrophoretic and immunocytochemical studies of protein synthesis during sea urchin development / Immunological and electrophoretic studies of protein synthesis during sea urchin development.

Hougan, Linda M. January 1984 (has links)
No description available.
109

Mathematical modeling of eukaryotic gene expression

Tang, Terry, University of Lethbridge. Faculty of Arts and Science January 2010 (has links)
Using the Gillespie algorithm, the export of the mRNA molecules from their transcription site to the nuclear pore complex is simulated. The effect of various structures in the nu- cleus on the efficiency of export is discussed. The results show that having some of the space filled by chromatin near the mRNA synthesis site shortens the transport time. Next, the complete eukaryotic gene expression including transcription, splicing, mRNA export, translation, and mRNA degradation is modeled using delay stochastic simulation. This allows for the study of stochastic effects during the process and on the protein production rate patterns. Various protein production patterns can be produced by adjusting the poly-A tail length of the mRNA and the promoter efficiency of the gene. After that, the opposing effects of the chromatin density on the seeking time of the transcription factors for the promoter and the exit time of the mRNA product are discussed. / xi, 102 leaves ; 28 cm
110

Initial characterization of the ribosome-associated ATP binding cassette (ABC) protein YHIH from E. Coli

Fischer, Jeffrey James, University of Lethbridge. Faculty of Arts and Science January 2007 (has links)
Protein synthesis is a highly conserved process across all domains of life, both structurally and functionally. This cyclic process is catalyzed by numerous soluble protein factors that interact with the ribosome to facilitate efficient protein synthesis. Many canonical translation factors bind and hydrolyze GTP to induce conformational changes that facilitate translation. For example, GTP hydrolysis by EF-Tu is required for the release of aminoacyl-tRNA into the ribosomal A site; GTP hydrolysis by EF-G facilitates the movement of tRNA and mRNA from the A site to the P site of the ribosome. However, protein synthesis seems to also have a requirement for ATP; the essential yeast protein eEF-3 facilitates release of deacyl-tRNA from the ribosomal E site. In Escherichia coli, the protein product of the open reading frame yhih has been suggested to have a similar function. However, the role of this unique prokaryotic protein is not understood. Preliminary characterization of this protein suggests a nucleotide-dependent conformational change occurs in a truncated form of the protein, ΔP541 Yhih. Interestingly, this phenomenon is not observed in ΔL432 Yhih. Both ΔP541 Yhih, and to a lesser extent ΔL432 Yhih, exhibit a ribosome-dependent ATPase activity, suggesting the primary region for binding with the ribosome lies between Leu432 and Pro541. / x, 101 leaves : ill. ; 29 cm.

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