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41	Process-scale renaturation of recombinant proteins from inclusion bodies / by Nicholas Kotlarski. Kotlarski, Nicholas January 1998 (has links) Bibliography: leaves 215-236. / x, 249 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Scale-up of a biochemical process involving expression of an Insulin-like Growth Factor-I analogue (LongR3IGF-I) as inclusion bodies within the bacterium Escherichia coli has been investigated. The principal focus was directed to the operation of refolding wherein the biological potency of the protein is imparted. / Thesis (Ph.D.)--University of Adelaide, Dept. of Chemical Engineering, 1998? 660.63 21 Recombinant proteins Analysis.
42	Modelling Insect Cell-Baculovirus Dynamics Rosinski, Matthew Unknown Date (has links) Minimising the time from 'scientific breakthrough'to clinical trial of a 'drug candidate' protein is a critical component leading to a successful product release. Crystallographic characterisation has become a standard requirement prior to clinical trial requiring milligram quantities of protein. The optimisation of protein expression systems is therefore of great commercial and social importance and represents a significant technical challenge. Without it, making enough protein for crystallography can quite literally take years. Baculoviral expression of recombinant protein by infection of an insect cell host is a well established technique in modern biotechnology. Although a limit to recombinant protein production in batch culture exists the mechanism has not been demonstrated. In particular, there has been no discussion of how biomass accumulation kinetics relate to the system limits in terms of final recombinant protein yield. The central aim of this thesis was therefore to quantitatively account for the dynamic behaviour in macromolecular compartments after baculovirus infection of insect cells, the rationale being that a rudimentary level of mechanistic structure can greatly enhance our ability to capture transient behaviour. The catalytic mass dictates the rate of total biomass accumulation in the baculovirus expression vector system (BEVS) and is directly proportional to the total RNA content of both baculovirus infected and uninfected Sf9 cells. During infection the total RNA concentration reaches a catalytic limit causing a switch from exponential to zero order mass accumulation kinetics. Importantly, this extends to individual cells as confirmed using a population balance model for the cell volume distribution after the switch to linear growth. By flow cytometry, a positive correlation between RNA content and cell size post infection validated this modelling assumption. The rate of mass accumulation slows down during the first 12 hours post infection (hpi). This is consistent with the decrease in both specific consumption rates of glucose and oxygen when using cell mass rather than cell number as a basis. A decrease in the geometric standard deviation (óg) of the cell volume distribution during the first 12 hpi indicates that cells enter the lower growth rate at times inversely proportional to their volume. Using several approaches no obvious biological mechanism to account for the empirical model was identified. The use of óg kinetics provides a novel tool for characterising the relative behaviour of infected cells in the BEVS. The effect of multiplicity of infection (MOI) on virus timing events between cultures was also tested. Little or no effect of MOI was observed on the timing of virus induced events during synchronous infections. The óg kinetics did indicate virus events occur 5 hours earlier at a MOI of 100 compared to a MOI of 20 plaque forming units per cell. There was however, no significant evidence of earlier death kinetics when measured using Trypan blue dye exclusion to measure cell membrane integrity. Virtually no effect of MOI on virus timing was observed using â-galactosidase production profiles. The viral DNA mass (vDNA) was measured using real time quantitative PCR (RTQ PCR) and has a doubling time of 2 hours. A vDNA template limited replication model fit the data well. Viral replication proceeds from 6 until 24 hpi with the average infected cell accumulating between 12 000 and 84 000 vDNA copies when replication stops. In theory, a dynamic equilibrium could have been present after the commencement of virus budding but this was not the case. At least 62% of the total DNA increase post infection is viral. No more than 16% of the total vDNA produced actually bud from the infected cell. This overproduction of vDNA is probably due to the wild type history of the virus, which normally occludes virions in a crystalline polyhedrin matrix within the cell nucleus as part of its life cycle. The approach taken here provides a framework for characterisation of both viral and total mass accumulation with the use of a few simple intracellular macromolecular pools. This thesis demonstrates that the BEVS limit in batch culture is not simply a result of the exhaustion of an amino acid using a case study of amino acid consumption by uninfected Sf9 cells for a 300 hour culture period. Future attempts to identify the system limits and will require the linkage of a mechanistic model with a more extensive and accurate analysis of important metabolites and specific intracellular species. Crystallography recombinant protein baculovirus viral
43	Structure-function studies of secreted PDZ domain-containing protein 2 (sPDZD2) Cheng, Shan, Amy. January 2007 (has links) Thesis (M. Phil.)--University of Hong Kong, 2007. / Also available in print.
44	Recombinant antibodies for the study of livestock infection from basic genetics to single-chain Fvs / Hosseini-Nohdani, Arsalan. January 2002 (has links) Thesis (Ph.D.) -- University of Glasgow, 2002. / Ph.D. thesis submitted to the Division of Infection and Immunity, Faculty of Biomedical and Life Sciences, University of Glasgow, 2002. Includes bibliographical references (p. 163-202). Print version also available.
45	Left-handed Z-DNA in DNA restriction fragments and recombinant plasmids Stirdivant, Steven Milton. January 1982 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1982. / Typescript. Vita. Description based on print version record. Includes bibliographical references.
46	Design and study of Trp-cage miniproteins / Barua, Bipasha. January 2005 (has links) Thesis (Ph. D.)--University of Washington, 2005. / Vita. Includes bibliographical references (leaves 128-142).
47	Optimization of Fermentation Conditions for the Production of Legionaminic Acid in Recombinant Escherichia Coli Wang, Ranjun January 2017 (has links) Legionaminic acid (Leg5,7Ac2) is a nonulosonic acid similar to sialic acid (Neu5Ac), which can be found in the extracellular glycoconjugates of several bacterial pathogens. Due to the similarity in stereochemistry of the two compounds, legionaminic acid has great potential in the production of pharmaceutical drugs. A novel biosynthetic pathway to produce legionaminic acid was created to overcome the limitations of organic synthesis. This is the first study involving the scale-up of legionaminic acid production by high cell density fermentation processes. In this work, fed-batch cultivations of recombinant Escherichia coli BRL04 were carried out in shake flasks and 5-L bioreactors. The final process was optimized by determining the effects of different carbon sources, induction temperatures, pH, dissolved oxygen (DO) content, induction optical density and N-acetylglucosamine (GlcNAc) feed rate on the production of legionaminic acid. Overall, results showed that the titer, yield and productivity for legionaminic acid production achieved relatively high levels, which were 5.53 g/L, 73.29% and 0.092 g/(Lh), respectively. It is hoped that this study accelerates research into the production of legionaminic acid for therapeutic treatments as well as for further study in glycobiology. Legionaminic Acid Fermentation Recombinant E. Coli
48	THE STRUCTURE AND FUNCTION OF APOLIPOPROTEIN A-IV PEARSON, KEVIN JOSEPH 28 September 2005 (has links) No description available. Apolipoprotein A-IV Lipid Binding Recombinant
49	Construction of a recombinant cDNA library and isolation of a plasmid containing thymidylate synthetase cDNA sequences / Geyer, Pamela Kent January 1983 (has links) No description available. Biology Recombinant DNA Plasmids DNA
50	Expression of recombinant porcine preprorelaxin in Nicotiana tabacum Buswell, Walter Scott 14 June 2006 (has links) Relaxin is a small peptide hormone that has demonstrated potential therapeutic actions for cardiovascular disease and fibrosis. Additionally, relaxin has demonstrated the ability to protect the heart from injuries caused by ischemia and reperfusion, promote the healing of ischemic ulcers, and counteract allergic responses. The objective of this research was to express fully processed porcine relaxin in transgenic tobacco plants, as an alternative to current methods of producing relaxin. Two recombinant relaxin genes were constructed that contained the patatin signal peptide cDNA fused in frame to prorelaxin cDNA, which was codon-optimized for expression in Nicotiana tabacum, under the control of either the "super" promoter or the dual enhanced cauliflower mosaic virus 35S promoter. Eighteen transgenic tobacco plants were generated that were transformed with the above recombinant genes. Preprorelaxin, mRNA was detected in 12 of the transgenic plants. Fully processed relaxin protein was not found in any tobacco plants that had demonstrated gene expression by northern blot analysis. Preprorelaxin was only identified in extracts from transgenic plants that contained the insoluble protein fraction, as determined by western blot analysis. Additionally, an increased yield of preprorelaxin was identified after incubation of tobacco leaves in an ubiquitin inhibitor. / Master of Science recombinant protein transgenic tobacco relaxin

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