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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.
21

Towards a novel group B meningococcal vaccine : peptide mimicry of capsular polysaccharide epitopes

Kwiatkowski, Eric January 2000 (has links)
No description available.
22

Phage display selection of recombinant antibodies derived from a chicken immune library against cryopreserved Eimeria tenella sporozoites

Abi Ghanem, Daad Ali 02 June 2009 (has links)
An antibody library against Eimeria tenella sporozoites was constructed by phage display. Total RNA was isolated from the spleen, bone marrow, and ceca of immune chickens, and was used to reverse-transcribe cDNA. Heavy and light antibody variable genes were amplified from cDNA by the Polymerase Chain Reaction (PCR), using primer pairs that contain complementary sequences encoding a short linker sequence. The single-chain antibody fragment (scFv) was obtained by a secondary overlap PCR with primers that incorporate SfiI restriction sites, thus allowing for subsequent cloning into the phagemid vector pComb3X. Vector and scFv insert were digested with SfiI, ligated, and transformed into competent XL1-Blue Escherichia coli cells by electroporation, yielding a library with 7.4 x 107 total transformants. The culture was grown under carbenicillin selective pressure, rescued with helper phage, and the antibody-displaying phage was precipitated by PEG/NaCl, and subsequently used for panning. Five panning rounds were performed using cryopreserved E. tenella sporozoites, with a gradual increase of washing stringency to select for specific, highaffinity binders. A 1000-fold increase in phage output was obtained after 3 rounds of panning. There was clear enrichment of the positive clones over the panning rounds, with the 3rd round resulting in a 3,000-fold enrichment over the first one, as the binding clones became the dominant population in the library. Selected antibodies from the last round of panning were sequenced and characterized by immunoblotting. Soluble antibody fragments were produced in a non-suppressor E. coli strain, and recognized a 66-KDa sporozoite antigen on a Western blot. Primary cultures of chicken enterocytes were prepared in the hope of serving for invasion assays with E. tenella sporozoites. The isolation procedure, however, proved to be cumbersome and time-consuming. Future investigations will focus on purification and further characterization of antibodies selected from the constructed library. Such antibodies can be tested, alone or in combination, for their ability to block in vitro the invasion mechanism of E. tenella.
23

Design, construction and characterization of LysK endolysin display phage against Staphylococcus aureus

El-Zarkout, Farah January 2013 (has links)
The growing threat of drug- resistant Staphylococcus aureus (S. aureus) infections mandates the need to develop novel, effective and alternative antibacterial therapeutics. Despite infection prevention and control measures, methicillin resistant S. aureus (MRSA)-associated deaths reached 11,285 in 2011 in the USA (CDC, 2013). To counteract the threat of drug resistant S. aureus, we sought to construct and characterize a novel therapeutic based on the display of lytic antibacterial enzymes, termed endolysins. These endolysins were displayed on the surface of a specific bacterial virus, bacteriophage (phage), to generate lytic antibacterial nanoparticles. Endolysins are encoded individually by a variety of double-stranded DNA phage and act to direct host lysis and escape. These lytic enzymes confer a high degree of host specificity that could potentially substitute for, or be combined with, antibiotics in the treatment of gram-positive drug resistant bacterial infections such as MRSA. In this study, modular domains of the phage-encoded endolysin K enzyme, specific to S. aureus, were displayed on the capsid surface of phage lambda () via fusion with the λ major head (capsid) protein, gpD. The constructs of displayed endolysins were prepared in various combinations to maximize the functional display of gpD::X fusions on the phage. Phage lysates were generated, collected and purified and lysis was investigated by adding to fresh lawns of MRSA, vancomycin resistant S. aureus (VRSA) and bovine S. aureus. Phage preparations did not readily confer cell lysis, likely due to poor incorporation of the fusions onto the functional phage capsid. We purified the fusion proteins (gpD::X) and tested them for their lytic activity. We noted that the activity of the gpD::LysK protein was not impaired by the fusion and demonstrated lysis on live and dead (autoclaved) bovine S. aureus. In contrast to gpD::LysK, the gpD::CHAP protein fusion, expressing only the CHAP catalytic domain of endolysin K showed variable results in the lysis assays that we performed. In the zymogram assay, gpD::CHAP did not elicit any observable lysis on live bovine S. aureus cells, but did effectively lyse dead cells of the same S. aureus species; however, it was highly lytic in the inhibition assay on bovine S. aureus. The CHAP::gpD protein fusion, which is the CHAP domain fused to the N terminus of gpD only showed its ability to inhibit bovine S. aureus growth on the inhibition assay. The fusion of endolysin K or its CHAP domain to gpD protein does not seem to interfere with lytic activity, but may result in recalcitrant gpD fusions that compromise the ability to efficiently decorate the phage capsid. Suggestions for improved fusion capsid integration are discussed.
24

Development of antibody technology to identify natural killer cell surface antigens in Xenopus laevis

Minter, Ralph January 1999 (has links)
Natural killer (NK)-like lymphocytes have recently been identified in thymectomised (Tx) Xenopus which are capable of spontaneous cytotoxicity towards the MHC- deficient, allogeneic thymus tumour cell line B(_3)B(_7). This Thesis describes attempts to raise antibodies to Xenopus NK cell surface antigens by phage display and hybridoma technology. The phage display technique was optimised for raising antibodies to novel, cellular antigens in a trial run using the Xenopus thymus tumour cell line B(_3)B(_7). Having isolated a phage antibody which was shown by flow cytometry to bind B(_3)B(_7) cells, the technique was then used to try and raise antibodies to Xenopus NK cells. Isolation of an NIC-specific phage antibody was not achieved but phage antibody XL-6 was raised, which bound an antigen on Xenopus lymphocytes. Phage antibody XL-6, and soluble scFv derived from this, were able to identify a putative mature T cell population in the thymus and may be specific for an amphibian homologue of the mammalian leukocyte common antigen CD45. Hybridoma technology was used to isolate three monoclonal antibodies, 1F8, 4D4 and 1G5, which were shown by flow cytometric analysis to identify a putative NK cell population in control and Tx Xenopus. Following immunomagnetic purification, 1F8- positive spleen cells from control and Tx animals were shown to kill the MHC- deficient tumour target B(_3)B(_7), confirming that this antibody was specific for Xenopus NK cells. Western blotting experiments showed that 1F8, 4D4 and 1G5 identified a doublet of protein bands at 72 and 74 kilodaltons in Xenopus gut lymphoid lysates. Initial attempts to isolate cDNA encoding a Xenopus NK cell surface antigen through immunoscreening a xenopus gut cDNA expression library with antibody 1G5 were unsuccessful as was an attempt to clone a Xenopus homologue of the mammalian NK receptor NKR-Pl by PGR.
25

Impact of Viral Infectivity on Phototrophic Microbes for Biofuel Applications

January 2014 (has links)
abstract: Research in microbial biofuels has dramatically increased over the last decade. The bulk of this research has focused on increasing the production yields of cyanobacteria and algal cells and improving extraction processes. However, there has been little to no research on the potential impact of viruses on the yields of these phototrophic microbes for biofuel production. Viruses have the potential to significantly reduce microbial populations and limit their growth rates. It is therefore important to understand how viruses affect phototrophic microbes and the prevalence of these viruses in the environment. For this study, phototrophic microbes were grown in glass bioreactors, under continuous light and aeration. Detection and quantification of viruses of both environmental and laboratory microbial strains were measured through the use of a plaque assay. Plates were incubated at 25º C under continuous direct florescent light. Several environmental samples were taken from Tempe Town Lake (Tempe, AZ) and all the samples tested positive for viruses. Virus free phototrophic microbes were obtained from plaque assay plates by using a sterile loop to scoop up a virus free portion of the microbial lawn and transferred into a new bioreactor. Isolated cells were confirmed virus free through subsequent plaque assays. Viruses were detected from the bench scale bioreactors of Cyanobacteria Synechocystis PCC 6803 and the environmental samples. Viruses were consistently present through subsequent passage in fresh cultures; demonstrating viral contamination can be a chronic problem. In addition TEM was performed to examine presence or viral attachment to cyanobacterial cells and to characterize viral particles morphology. Electron micrographs obtained confirmed viral attachment and that the viruses detected were all of a similar size and shape. Particle sizes were measured to be approximately 50-60 nm. Cell reduction was observed as a decrease in optical density, with a transition from a dark green to a yellow green color for the cultures. Phototrophic microbial viruses were demonstrated to persist in the natural environment and to cause a reduction in algal populations in the bioreactors. Therefore it is likely that viruses could have a significant impact on microbial biofuel production by limiting the yields of production ponds. / Dissertation/Thesis / Masters Thesis Civil and Environmental Engineering 2014
26

Directed Evolution of gp120 Binding Mutants of the Lectin Cyanovirin-N

January 2013 (has links)
abstract: Cyanovirin-N (CV-N) is a naturally occurring lectin originally isolated from the cyanobacteria Nostoc ellipsosporum. This 11 kDa lectin is 101 amino acids long with two binding sites, one at each end of the protein. CV-N specifically binds to terminal Manα1-2Manα motifs on the branched, high mannose Man9 and Man8 glycosylations found on enveloped viruses including Ebola, Influenza, and HIV. wt-CVN has micromolar binding to soluble Manα1-2Manα and also inhibits HIV entry at low nanomolar concentrations. CV-N's high affinity and specificity for Manα1-2Manα makes it an excellent lectin to study for its glycan-specific properties. The long-term aim of this project is to make a variety of mutant CV-Ns to specifically bind other glycan targets. Such a set of lectins may be used as screening reagents to identify biomarkers and other glycan motifs of interest. As proof of concept, a T7 phage display library was constructed using P51G-m4-CVN genes mutated at positions 41, 44, 52, 53, 56, 74, and 76 in binding Domain B. Five CV-N mutants were selected from the library and expressed in BL21(DE3) E. coli. Two of the mutants, SSDGLQQ-P51Gm4-CVN and AAGRLSK-P51Gm4-CVN, were sufficiently stable for characterization and were examined by CD, Tm, ELISA, and glycan array. Both proteins have CD minima at approximately 213 nm, indicating largely β-sheet structure, and have Tm values greater than 40°C. ELISA against gp120 and RNase B demonstrate both proteins' ability to bind high mannose glycans. To more specifically determine the binding specificity of each protein, AAGRLSK-P51Gm4-CVN, SSDGLQQ-P51Gm4-CVN, wt-CVN, and P51G-m4-CVN were sent to the Consortium for Functional Glycomics (CFG) for glycan array analysis. AAGRLSK-P51Gm4-CVN, wt-CVN, and P51G-m4-CVN, have identical specificities for high mannose glycans containing terminal Manα1-2Manα. SSDGLQQ-P51Gm4-CVN binds to terminal GlcNAcα1-4Gal motifs and a subgroup of high mannose glycans bound by P51G-m4-CVN. SSDGLQQ-wt-CVN was produced to restore anti-HIV activity and has a high nanomolar EC50 value compared to wt-CVN's low nanomolar activity. Overall, these experiments show that CV-N Domain B can be mutated and retain specificity identical to wt-CVN or acquire new glycan specificities. This first generation information can be used to produce glycan-specific lectins for a variety of applications. / Dissertation/Thesis / Ph.D. Biochemistry 2013
27

Characterization of Bacteriophages

Shuster, Amy P. January 2017 (has links)
No description available.
28

Investigation of flagellotropic phage interactions with their motile host bacteria

Gonzalez, Floricel 21 June 2021 (has links)
Bacteriophages cohabit with their bacterial hosts and shape microbial communities. To initiate infection, phages use bacterial components as receptors to recognize and attach to hosts. Flagellotropic phages utilize bacterial flagella as receptors. Studies focused on uncovering mechanistic details of flagellotropic phage infection are lacking. As the number of phage-based applications grows, it is important to understand these details to predict the potential outcomes of phage therapy. To this end, we studied two flagellotropic phages: Agrobacterium phage 7-7-1 and bacteriophage χ. Phage 7-7-1 infects Agrobacterium spp., while bacteriophage χ infects Salmonella and Escherichia coli. Chapter 1 consists of a literature review. Chapter 2 addresses factors underlying phage-bacteria coexistence. We document the emergence of a sector-shaped lysis pattern following co-inoculation of phage χ and one of its Salmonella hosts on swim plates. We propose that this pattern serves as a reporter for balanced phage-bacteria coexistence. Using a combined experimental and mathematical modelling approach, we discovered that variations to intrinsic factors (i.e., bacterial motility, phage adsorption) skews the pattern towards either bacterial or phage predominance. Thus, this computational model may be used to predict phage therapy application outcomes. Chapter 3 details the identification of cell surface receptors essential for phage 7-7-1 infection using a transposon mutagenesis approach. We identified three Agrobacterium sp. H13-3 genes involved in phage 7-7-1 infection. Using mass spectrometry and other analyses, we determined that the LPS profiles of strains lacking these genes varied compared to the wild type. Thus, LPS is a secondary cell surface receptor for phage 7-7-1. Chapter 4 focuses on the discovery of phage encoded receptor binding proteins (RBPs) in Agrobacterium phage 7-7-1. Using an RBP screen, we discovered three candidate RBPs. We learned that our top candidate, Gp4, inhibits the growth of Agrobacterium sp. H13-3 cells in a motility and glycan dependent manner. Because of its bacteriostatic activities, this protein is a promising candidate for therapeutic use. Overall, the described works contribute to a deepened understanding of flagellotropic phage infection and the factors influencing their coexistence with motile bacteria. These works will contribute towards the development of phage therapies using whole phage or their components. / Doctor of Philosophy / Bacteriophages, or phages for short, are the natural killers of bacteria. Like antibiotics, they can also be used as medicines to treat bacterial infections. Their attack on bacteria begins by recognizing specific parts of the bacterial cell and attaching to them. These parts are called receptors. To use phages as medicines it is important to understand how they recognize and kill bacteria. This information is helpful when deciding which phage should be given to treat a bacterial infection and to predict the outcomes of these treatments. In this work, we focused on two phages to answer different questions. Both phages use long helical thread-like structures, called flagella, as receptors. Flagella help the bacteria to move through the environment and reach new areas with more nutrients. One of these flagella-dependent phages, called phage 7-7-1, infects plant pathogens that cause tumor-like growth in plants. We found that this phage uses two very different host cell components during infection and identified one of the phage proteins that interacts with these receptors. This protein prevents the growth of the plant pathogen, which makes it a promising candidate for therapeutic use. We also investigated how another bacterial virus, bacteriophage χ, is spread throughout the environment and co-exists with its motile bacterial host. We built a computational model that can predict how altering different variables affects phage-bacteria coexistence. With additional research, this model will be a useful tool for predicting the outcomes following phage treatment.
29

Discovery of Catalytic Phages by Biocatalytic Self-Assembly

Maeda, Y., Javid, Nadeem, Duncan, K., Birchall, L., Gibson, K.F., Cannon, D., Kanetsuki, Y., Knapp, C., Tuttle, T., Ulijn, R.V., Matsui, H. 24 October 2014 (has links)
No / Discovery of new catalysts for demanding aqueous reactions is challenging. Here, we describe methodology for selection of catalytic phages by taking advantage of localized assembly of the product of the catalytic reaction that is screened for. A phage display library covering 109 unique dodecapeptide sequences is incubated with nonassembling precursors. Phages which are able to catalyze formation of the self-assembling reaction product (via amide condensation) acquire an aggregate of reaction product, enabling separation by centrifugation. The thus selected phages can be amplified by infection of Escherichia coli. These phages are shown to catalyze amide condensation and hydrolysis. Kinetic analysis shows a minor role for substrate binding. The approach enables discovery and mass-production of biocatalytic phages.
30

Phage-host interactions in <em>Lactobacillus delbrueckii</em>: host recognition and transcription of early phage genes

Räisänen, L. (Liisa) 24 April 2007 (has links)
Abstract The scope of this study includes aspects of phage evolution and antagonistic/mutualistic coevolution between a phage and its host. As a basic study it may provide tools for developing phage resistant starters and offer regulatory elements and factors for biotechnological applications. The LL-H anti-receptor was characterized by isolation of spontaneous LL-H host range mutants and subsequent sequencing of candidate genes. All LL-H host range mutants carried a single point mutation at the 3' end of a minor tail protein encoding gene g71. The genomic location of g71 is congruent with the other verified anti-receptor genes found in the λ supergroup. The C-terminus of Gp71 determines the adsorption specificity of phage LL-H similarly for the number of phages infecting Gram-positive and Gram-negative bacteria. A Gp71 homolog of phage JCL1032 showed 62% identity to LL-H Gp71 within the last 300 amino acids at the C-terminus. Lactobacillus delbrueckii phage receptors were investigated by the purification of different cell surface structures. Certain Lb. delbrueckii phages from homology groups a and c including LL-H, LL-H host range mutants and JCL1032, were specifically inactivated by the LTAs. In structural analyses LTAs showed differences in the degree of α-glucosyl and ᴅ-alanyl substitution. α-glucose is necessary for LL-H adsorption. A high level of ᴅ-alanine esters in LTA backbones inhibited Lb. delbrueckii phage inactivation in general. Lysogenization of strain ATCC 15808 with the temperate phage JCL1032 revealed a rarely described coexistence of phage adsorption resistance and phage immunity, which could not be explained by lysogenic conversion. In this case the role of spontaneously induced JCL1032 may be significant. The LL-H early gene region was localized between the dysfunctional lysogeny module and the terminase encoding genes. The function of five ORFs could be connected to phage DNA replication and/or homologous recombination. Transcription of LL-H genes could be divided into two, possibly three, phases in which large gene clusters were sequentially transcribed. The intensity of the late transcripts exceeded the intensity of the early transcripts by several times. Two candidate genes for transcription regulators were found. One of the two candidates is the first ORF in the LL-H early gene region.

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