Global ETD Search

51	Strategies for facilitated protein recovery after recombinant production in Escherichia coli Hedhammar, My January 2005 (has links) The successful genomic era has resulted in a great demand for efficient production and purification of proteins. The main objective of the work described in this thesis was to develop methods to facilitate recovery of target proteins after recombinant production in Escherichia coli. A positively charged purification tag, Zbasic, has previously been constructed by protein design of a compact three-helix bundle domain, Z. The charged domain was investigated for general use as a fusion partner. All target proteins investigated could be selectively captured by ion-exchange chromatography under conditions excluding adsorption of the majority of Escherichia coli host proteins. A single cation-exchange chromatography step at physiological pH was sufficient to provide Zbasic fusion proteins of high purity close to homogeneity. Moreover, efficient isolation directly from unclarified Escherichia coli homogenates could also be accomplished using an expanded bed mode. Since the intended use of a recombinant protein sometimes requires removal of the purification tag, a strategy for efficient release of the Zbasic moiety using an immobilised protease was developed. The protease columns were reusable without any measurable decrease in activity. Moreover, subsequent removal of the released tag, Zbasic, was effected by adsorption to a second cation-exchanger. Using a similar strategy, a purification tag with a negatively charged surface, denoted Zacid, was constructed and thoroughly characterised. Contrary to Zbasic, the negatively charged Zacid was highly unstructured in a low conductivity environment. Despite this, all Zacid fusion proteins investigated could be efficiently purified from whole cell lysates using anion-exchange chromatography Synthesis of polypeptides occurs readily in Escherichia coli providing large amounts of protein in cells of this type, albeit often one finds the recombinant proteins sequestered in inclusion bodies. Therefore, a high throughput method for screening of protein expression was developed. Levels of both soluble and precipitated protein could simultaneously be assessed in vivo by the use of a flow cytometer. The positively charged domain, Zbasic, was shown also to be selective under denaturing conditions, providing the possibility to purify proteins solubilised from inclusion bodies. Finally, a flexible process for solid-phase refolding was developed, using Zbasic as a reversible linker to the cation-exchanger resin. / QC 20101020 ion-exchange chromatography protein A Z Zbasic Zacid fusion protein proteolytic cleavage immobilised protease flow cytometry inclusion bodies solid-phase refolding Molecular biology Molekylärbiologi
52	Production and delivery of recombinant subunit vaccines Andersson, Christin January 2000 (has links) <p>Recombinant strategies are today dominating in thedevelopment of modern subunit vaccines. This thesis describesstrategies for the production and recovery of protein subunitimmunogens, and how genetic design of the expression vectorscan be used to adapt the immunogens for incorporation intoadjuvant systems. In addition, different strategies fordelivery of subunit vaccines by RNA or DNA immunization havebeen investigated.</p><p>Attempts to create general production strategies forrecombinant protein immunogens in such a way that these areadapted for association with an adjuvant formulation wereevaluated. Different hydrophobic amino acid sequences, beingeither theoretically designed or representing transmembraneregions of bacterial or viral origin, were fused on gene leveleither N-terminally or C-terminally to allow association withiscoms. In addition, affinity tags derived from<i>Staphylococcus aureus</i>protein A (SpA) or streptococcalprotein G (SpG), were incorporated to allow efficient recoveryby means of affinity chromatography. A malaria peptide, M5,derived from the central repeat region of the<i>Plasmodium falciparum</i>blood-stage antigen Pf155/RESA,served as model immunogen in these studies. Furthermore,strategies for<i>in vivo</i>or<i>in vitro</i>lipidation of recombinant immunogens for iscomincorporation were also investigated, with a model immunogendeltaSAG1 derived from<i>Toxoplasma gondii</i>. Both strategies were found to befunctional in that the produced and affinity purified fusionproteins indeed associated with iscoms. The iscoms werefurthermore capable of inducing antigen-specific antibodyresponses upon immunization of mice, and we thus believe thatthe presented strategies offer convenient methods for adjuvantassociation.</p><p>Recombinant production of a respiratory syncytial virus(RSV) candidate vaccine, BBG2Na, in baby hamster kidney(BHK-21) cells was investigated. Semliki Forest virus(SFV)-based expression vectors encoding both intracellular andsecreted forms of BBG2Na were constructed and found to befunctional. Efficient recovery of BBG2Na could be achieved bycombining serum-free production with a recovery strategy usinga product-specific affinity-column based on a combinatoriallyengineered SpA domain, with specific binding to the G proteinpart of the product.</p><p>Plasmid vectors encoding cytoplasmic or secreted variants ofBBG2Na, and employing the SFV replicase for self-amplification,was constructed and evaluated for DNA immunization against RSV.Both plasmid vectors were found to be functional in terms ofBBG2Na expression and localization. Upon intramuscularimmunization of mice, the plasmid vector encoding the secretedvariant of the antigen elicited significant anti-BBG2Na titersand demonstrated lung protective efficacy in mice. This studyclearly demonstrate that protective immune responses to RSV canbe elicited in mice by DNA immunization, and that differentialtargeting of the antigens expressed by nucleic acid vaccinationcould significantly influence the immunogenicity and protectiveefficacy.</p><p>We further evaluated DNA and RNA constructs based on the SFVreplicon in comparison with a conventional DNA plasmid forinduction of antibody responses against the<i>P. falciparum</i>Pf332-derived antigen EB200. In general,the antibody responses induced were relatively low, the highestresponses surprisingly obtained with the conventional DNAplasmid. Also recombinant SFV suicide particles inducedEB200-reactive antibodies. Importantly, all immunogens inducedan immunological memory, which could be efficiently activatedby a booster injection with EB200 protein.</p><p><b>Keywords</b>: Affibody, Affinity chromatography, Affinitypurification, DNA immunization, Expression plasmid, Fusionprotein, Hydrophobic tag, Iscoms, Lipid tagging, Malaria,Mammalian cell expression, Recombinant immunogen, RespiratorySyncytial Virus, Semliki Forest virus, Serum albumin,<i>Staphylococcus aureus</i>protein A, Subunit vaccine,<i>Toxoplasma gondii</i></p> Affibody Affinity chromatography Affinity purification DNA immunization Expression plasmid Fusion protein Hydrophobic tag Iscoms Lipid tagging Malaria Mammalian cell expression Recombinant immunogen Respiratory Syncytial Virus Semliki Fo
53	Strategies for facilitated production of recombinant proteins in escherichia coli Hedhammar, My January 2005 (has links) <p>The successful genomic era has resulted in a great demand for efficient production and purification of proteins. The main objective of the work described in this thesis was to develop methods to facilitate recovery of target proteins after recombinant production in Escherichia coli.</p><p>A positively charged purification tag, Z<sub>basic</sub>, has previously been constructed by protein design of a compact three-helix bundle domain, Z. The charged domain was investigated for general use as a fusion partner. All target proteins investigated could be selectively captured by ion-exchange chromatography under conditions excluding adsorption of the majority of Escherichia coli host proteins. A single cation-exchange chromatography step at physiological pH was sufficient to provide Z<sub>basic</sub> fusion proteins of high purity close to homogeneity. Moreover, efficient isolation directly from unclarified <i>Escherichia coli</i> homogenates could also be accomplished using an expanded bed mode. Since the intended use of a recombinant protein sometimes requires removal of the purification tag, a strategy for efficient release of the Z<sub>basic</sub> moiety using an immobilised protease was developed. The protease columns were reusable without any measurable decrease in activity. Moreover, subsequent removal of the released tag, Z<sub>basic</sub>, was effected by adsorption to a second cation-exchanger. </p><p>Using a similar strategy, a purification tag with a negatively charged surface, denoted Z<sub>acid</sub>, was constructed and thoroughly characterised. Contrary to Z<sub>basic</sub>, the negatively charged Z<sub>acid</sub> was highly unstructured in a low conductivity environment. Despite this, all Z<sub>acid</sub> fusion proteins investigated could be efficiently purified from whole cell lysates using anion-exchange chromatography</p><p>Synthesis of polypeptides occurs readily in Escherichia coli providing large amounts of protein in cells of this type, albeit often one finds the recombinant proteins sequestered in inclusion bodies. Therefore, a high throughput method for screening of protein expression was developed. Levels of both soluble and precipitated protein could simultaneously be assessed <i>in vivo</i> by the use of a flow cytometer. </p><p>The positively charged domain, Z<sub>basic</sub>, was shown also to be selective under denaturing conditions, providing the possibility to purify proteins solubilised from inclusion bodies. Finally, a flexible process for solid-phase refolding was developed, using Z<sub>basic</sub> as a reversible linker to the cation-exchanger resin.</p> ion-exchange chromatography protein A Z Zbasic Zacid fusion protein proteolytic cleavage immobilised protease flow cytometry inclusion bodies solid-phase refolding Molecular biology Molekylärbiologi
54	Newcastle Disease Virus Virulence: Mechanism of the Interferon Antagonistic Activity of the V Protein and Characterization of a Putative Virulence-Specific Antibody to the Attachment Protein: a dissertation Alamares, Judith G. 05 May 2008 (has links) Newcastle disease virus (NDV) is a member of the genus Avulavirus of the Paramyxoviridaefamily of enveloped negative-stranded RNA viruses. The virus causes respiratory, neurological, or enteric disease in many species of birds, resulting in significant losses to the poultry industry worldwide. Strains of the virus are classified into three pathotypes based on the severity of disease in chickens. Avirulent strains that produce mild or asymptomatic infections are termed lentogenic, whereas virulent strains are termed velogenic. Strains of intermediate virulence are termed mesogenic. The envelope of NDV virions contains two types of glycoproteins, the hemagglutinin-neuraminidase (HN) and fusion (F) proteins. HN mediates three functions: 1) virus attachment to sialic acid-containing receptors; 2) neuraminidase activity that cleaves sialic acid from progeny virions to prevent self-aggregation; and, 3) complementation of the F protein in the promotion of fusion. Though it is widely accepted that cleavage of a fusion protein precursor is the primary determinant of NDV virulence, it is not the sole determinant. At least two other proteins, HN and the V protein, contribute to virulence. The V protein possesses interferon (IFN) antagonistic activity. The long-range goal of these studies is to understand the roles of HN and V in the differential virulence patterns exhibited by members of the NDV serotype. The first aim is to compare the IFN antagonistic activity of the V protein from a lentogenic and a mesogenic strain of the virus. The results of this study demonstrate that the V protein of the mesogenic strain Beaudette C (BC) exhibits greater IFN antagonistic activity than that of the lentogenic strain La Sota. Hence, the IFN antagonistic activities of the two V proteins correlate with their known virulence properties. Comparison of the C-terminal regions of La Sota and BC V proteins revealed four amino acid differences. The results demonstrate that the IFN antagonistic activity of La Sota V increases when any one of these residues is mutated to the corresponding residue in BC V. Conversely, the IFN antagonistic activity of BC V decreases when any one of these four residues is mutated to the corresponding residue in La Sota V. However, no single residue accounts for the difference in IFN antagonistic activity between the two V proteins. Also, analysis of La Sota V and BC V proteins with multiple mutations in these positions revealed that the four residues are collectively responsible for the difference in the IFN antagonistic activity of the two V proteins. Finally, characterization of chimeric La Sota/BC V proteins showed that the N-terminal region also contributes to the IFN antagonistic activity of V. Contrary to an earlier report, results described here demonstrate that the NDV V protein does not target STAT1 for degradation. However, both La Sota and BC V proteins target interferon regulatory factor (IRF)-7 for degradation and promote the conversion of full-length IRF-7 to a lower molecular weight form (IRF-7). This is the first demonstration that IRF-7 is targeted by a paramyxovirus V protein. The amount of IRF-7 decreases in a dose-dependent manner in the presence of a proteasome inhibitor, suggesting that IRF-7* is a degradation product of IRF-7. Furthermore, the BC V protein promotes complete conversion of IRF-7 to IRF7*, whereas the La Sota V protein does so less efficiently. Again, this is consistent with the difference in IFN antagonistic activity of the two V proteins, and in turn, with their virulence. The second aim is to characterize an HN-specific monoclonal antibody called AVS-I. A previous study suggested that AVS-I recognizes an epitope that is conserved in lentogenic strains and raises the possibility that this epitope may colocalize with a determinant of virulence in HN. To further characterize antibody AVS-I and the epitope it recognizes, we (i) determined its specificity for several additional strains of the virus, (ii) mapped its binding to HN in competition with our own antibodies, (iii) determined its functional inhibition profile, and (iv) isolated and sequenced an AVS-I escape mutant. The results demonstrate that AVS-I binds to a conformational epitope at the carboxy terminus of HN. This suggests that this region of HN may define a determinant of virulence. However, it was also shown that AVS-I, which was previously thought to be specific for avirulent strains of NDV, actually recognizes individual mesogenic and velogenic strains. In conclusion, the data presented in this dissertation contributes to a greater understanding of the molecular basis for NDV virulence and may aid in development of antiviral strategies and generation of recombinant NDVs suitable for use in cancer and gene therapy. Newcastle disease virus Virulence Viral Fusion Protein Viral Proteins HN Protein Interferons Amino Acids, Peptides, and Proteins Biological Factors Investigative Techniques Neoplasms Therapeutics Viruses
55	Reprogramação de células mesenquimais de tecido adiposo em células-tronco pluripotentes por meio de proteína de fusão TAT / Nuclear reprogramming of adipose-tissue mesenchymal stem cells into pluripotent stem cells using TAT fusion protein Vinícius Bassaneze 23 February 2012 (has links) Os vírus são eficazes na transferência de genes em células devido aos seus mecanismos especializados. No entanto, vírus como veículos de entrega de genes podem acarretar em problemas, particularmente quando proposto para reprogramar células somáticas em células-tronco pluripotentes induzidas (iPS) visando utilização terapêutica. No presente estudo, procurou-se desenvolver um sistema alternativo para entregar diretamente proteínas nucleares (Oct4, Sox2, KLF4, e c-Myc) fusionadas com o domínio de transdução de proteína TAT, para promover a reprogramação de fibroblastos embrionários de camundongos (MEF) ou células mesenquimais derivadas de tecido adiposo humano (hASC) em células iPS. Primeiramente o PTD TAT ou TAT- foi fundido a proteína verde fluorescente (GFP) como modelo para prova de princípio e padronização detalhada. Inesperadamente, TAT-GFP produzido e secretado pelas células NIH-3T3 produtora não foi capaz de ser detectado no meio de cultura por verificação quantitativa fluorimétrica, nem foi capaz de ser detectada em células-alvo, por citometria de fluxo, depois de co-cultura em transwells. Essa observação pode ser explicada por: (1) ineficiência desse tipo de célula em secretar proteínas e (2) falta de resistência à clivagem por endoproteases furinas. Para contornar esses fatores limitantes usou-se citometria de fluxo para avaliar as melhores condições para a transfecção por seis diferentes tipos de células (CHO, NIH-3T3, HT1080, HEK-293A, HEK-293t e COS-7) com TAT (modificada para ser resistente à furinas) fundido a GFP. Células 293t-TAT-GFP exibiram a maior eficiência de transfecção e também de secreção. O mesmo pôde ser observado para as seis linhagens celulares expressando fatores de transcrição nucleares TAT, determinados por ELISA. Em seguida, diferentes estratégias de entrega foram testadas. A primeira foi baseada na co-cultura de uma mistura de células produtoras com MEF ou hASC. No entanto, não foi possível observar a reprogramação devido à morte celular. A segunda foi baseada na concentração de meio condicionado de cultura de células por centrifugação usando colunas Amicon, trocando o meio a cada 24h, em quatro ciclos. No entanto, apesar da presença de algumas colônias após 20-30 dias, nenhuma colônia verdadeira iPS foi obtida. Na sequência, as células foram tratadas com cada proteína de forma independente, e as demais foram substituídas pelo retrovírus correspondente, trocando meio a cada 72h, em quatro ciclos. Essa estratégia, apesar de permitir verificar a função de cada proteína, também não resultou em reprogramação. Este achado pode ser explicado pela diferenciação celular induzida por BCS, que também é concentrado no processo. Assim, passou-se a adaptação de \"células produtoras\" em condições de cultura livre de soro, para enriquecer a produção dos fatores nucleares individuais, necessários para a reprogramação. A otimização sistematizada deste processo está sendo realizada em parceria com o IPT e deve resultar em quantidades de proteína de fusão suficientes para o teste final da hipótese proposta. Em conjunto, são apresentados os dados da geração de linhagens celulares expressando estavelmente os vários fatores de transcrição e estratégias para melhorar a eficiência necessária para a produção iPS. Esta nova estratégia garante uma produção eficiente de TAT fundida a fatores nucleares de reprogramação e sua eficácia para promover a reprogramação de células somáticas de maneira livre de vírus merece ser investigado futuramente / Viruses are effective at transferring genes into cells by its specialized mechanisms. However, viruses as gene delivery vehicles entail problems, particularly when proposed to reprogram somatic cells into induced pluripotent stem cells (iPS) for therapeutic uses. In the present study, we aimed to develop an alternative system for directly delivering nuclear proteins (Oct4, Sox2, Klf4, and c-Myc) fused with TAT protein transduction domain to promote reprogramming of mouse embryonic fibroblasts (MEF) or human adipose tissue derived mesenchymal cells (hASC) into iPS cells. First TAT- or TAT- PTD was fused to green fluorescent protein (GFP) as a proof of principle model and for detailed standardization. Unexpectedly, TAT-GFP produced and secreted by NIH-3T3 producer cells was not detected in the culture medium by quantitative fluorimetric verification, nor detected on target cells, by flow cytometry, after being co-cultured using transwells. This observation maybe explained by: (1) inefficiency of this cell type to be transfected and to secrete proteins and (2) lack of resistance to furin endoproteases cleavage on Golgi of TAT sequence. To circumvent these limiting factors we used flow cytometer to assess the best conditions for transfection in six different cell types (CHO, NIH-3T3, HT1080, HEK-293A, HEK-293t and COS-7) with TAT- (a modified PTD to be resistant to furin endoproteases) fused to GFP. 293t-TAT-GFP cells displayed the highest transfection efficiency and secretion levels. The same could be observed for the six cell lineages expressing TAT- nuclear transcription factors, determined by ELISA.Next, different delivery strategies were tested for TAT- nuclear transcription factor system. Co-culturing a mix of producer cells with MEF or hASC resulted in not reprogramming and this was associated with cell death. The second was based on the use of microconcentrated conditioned cell culture medium, changed every 24h, in four cycles. However, despite the presence of some emerging colonies after 20-30 days, no true iPS colonies were obtained. Then, cells were treated with each protein independently, and the others were replaced by the corresponding retrovirus, changing cell medium every 72h, in four cycles. We verified the reprogramming potential of each protein, but no true colonies were obtained.One possibility for this finding is that BCS is also concentrated by centrifugation and may induce cell differentiation. To circumvent these problems, we have started the adaptation of producer cells in a serum-free culture condition to enrich the production of the individual factors required for reprogramming. This optimization process is taking place in collaboration with the IPT and shall result in large amounts of the fusion protein to finally test the proposed hypothesis. Altogether, we presented the generation of several cell lines stably expressing the transcription factors and strategies to improve the efficiency required for iPS production. This novel strategy guarantees efficient production of TAT-fused reprogramming nuclear factors and its efficacy to promote somatic cells reprogramming in a virus-free manner deserves to be further investigated Células iPS Células-tronco pluripotentes induzidas Genes TAT Proteínas recombinantes de fusão Reprogramação nuclear TATkappa Genes TAT Induced pluripotent stem cells IPS cells Nuclear reprogramming Recombinant fusion protein TATkappa
56	Characterization of the fusion protein mNG-Aβ1-42 as a fluorescence reporter probe for amyloid structure Fredén, Linnéa January 2020 (has links) Alzheimer’s Disease, also called AD, is a horrible, degenerative brain disease that more than 35 million people over the world have. Today, there is no cure for this disease, only treatments that are temporarily relieving the symptoms. The two proteins that is thought to be the main cause of AD is amyloid β (Aβ) and tau. Previously, people have tried studying Aβ in vivo using green fluorescent protein fusion together with Aβ. However, this is difficult since the aggregation of Aβ will lead to loss of fluorescence. This study aimed to crystallize the fusion protein mNG-A β1-42 and to investigate its properties as a molecular fluorescent Aβ-amyloid specific probe. Dynamic light scattering (DLS) was used to confirm that the majority of the protein was not in the form of soluble aggregates. The DLS experiments were followed by several rounds of crystallization trials. Initial screening and the subsequent narrowing down of potential conditions where mNG-Aβ1-42 could form crystals. Several staining experiments were conducted as well, including staining brain tissue from mouse with both Swedish and Arctic mutation, from human patients with sporadic AD and from human patients with AD with the Arctic mutation. The DLS experiments showed that the protein used in the crystallization experiments mostly consisted of molecular particles of the same radius. However, there was clear evidence of some larger species present that could have been a potential problem for crystallization. Crystallization experiments suggested that PEG 8000 was the most promising precipitant amongst other conditions identified for crystallization of mNG-Aβ1-42. However, the study was ultimately unsuccessful in developing crystals of sufficient high quality for diffraction studies to commence. The staining experiments demonstrated that mNG-Aβ1-42 could bind both by itself and with another amyloid probe, Congo red, and with antibodies in brain tissue from mouse with both Swedish and Arctic mutation, from human patients with sporadic AD and from human patients with AD with the Arctic mutation. In conclusion, several characteristics of mNG-Aβ1-42 were revealed in this study. Alzheimer’s Disease (AD) Amyloids Aβ fusion protein mNeonGreen mNG-Aβ1-42 Crystallization mouse brain tissue human brain tissue amyloid fluorescent probes Structural Biology Strukturbiologi
57	Assessing Factor H-Fc Fusion Proteins as a Therapeutic for Controlling Burkholderia pseudomallei Infection Morgan, Kelly Lane January 2022 (has links) No description available. Health Sciences Immunology Microbiology Biomedical Research Burkholderia Burkholderia pseudomallei complement Factor H immunoglobulin G IgG Fc FH-Fc, Factor H-Fc, fusion protein C3 membrane attack complex
58	ANALYSIS OF CHROMATIN ACCESSIBILITY OF THE HUMAN C-MYC REPLICATION ORIGIN Danh, Tu Thien January 2015 (has links) No description available. Molecular Biology DNA replication c-myc replicator GAL4 fusion protein pre-replication complex chromatin accessibility chromatin remodeling BRG1 Cdt1 FLP recombinase system DNAse hypersensitivity
59	Towards Development of an Immunoassay Utilizing Circularly Permutated Proteins to Detect Environmental Contaminants Zunnoon Khan, Sara 29 August 2013 (has links) A fusion protein composed of antibody fragments and β-lactamase was earlier created by Kojima et al. (2011), with antigen specificities against a bone disease marker and a pesticide. The enzyme was circularly permutated and fused to the variable heavy and light chain antibody fragments, thereby ensuring inactivity until binding of the target antigen triggered enzyme activation. Upon activation, the β-lactamase produced a colorimetric signal, which indicated antigen presence. In this work, a similar strategy was used to create two novel fusion proteins composed of circularly permuted β-lactamase and superfolder green fluorescent protein with anti-benzo[a]pyrene variable antibody fragments. The fusion proteins were designed and expressed in E. coli for the development of a single-step visual immunoassay. It was hypothesized that the cp reporter proteins would be activated once the binding of B[a]P to the variable antibody fragments occurred, and this interaction was expected to produce a detectable colorimetric or fluorescent signal. Although positive results were obtained in one instance, substantial supportive evidence in favour of the hypothesis could not be obtained. / SENTINEL Bioactive Paper Network, Natural Sciences and Engineering Research Council of Canada (NSERC), Canada Research Chairs Program. immunoassay B[a]P benzo[a]pyrene circular permutation circularly permutated environmental contaminant beta-lactamase superfolder GFP green fluorescent protein fluorescence nitrocefin cross-reactivity imidazole carcinogen detection method fusion protein colorimetric reaction scFv anti-B[a]P scFv cp
60	Aberrant DNA Replication at an Ectopic Chromosomal Site in Human Cells Chen, Xiaomi 27 April 2011 (has links) No description available. Biomedical Research Replication c-myc replicator GAL4 fusion protein induction of replication origin activity pre-replication complex isogenic cell lines FLP recombinase system DM1 triplet repeat instability zinc finger nuclease hairpin formation.

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