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Baculovirus stability in serum-free lyophilized and wet storage conditionsColandro, Michelle Elizabeth 10 September 2013 (has links)
The baculovirus expression vector system (BEVS) is an effective way to produce recombinant proteins for biopharmaceuticals. However baculovirus stocks are stored in subzero temperatures to maintain virus stability, and fetal bovine serum is commonly used in the storage solution. In an effort to lower transportation and storage costs, a storage formulation that can effectively store the baculovirus in above frozen temperatures without the use of FBS would be beneficial. In this study, DMSO, ethylene glycol, glycerol, sucrose, sorbitol, sucrose-phosphate, and sucrose-phosphate-glutamate were added to baculovirus stock at various concentrations to determine the most effective stabilizer for virus storage at 4°C. Of the seven additives studied, 1 M sorbitol most effectively preserved baculovirus stock over a period of 47 weeks stored in 4°C. Formulations that include sucrose, L-arginine, and Pluronic F68 were created to determine their effectiveness on virus stability in a freeze-dried state stored at room temperature. In a lyophilized state, 0.5 M sucrose maintained baculovirus stock stability after 5 weeks of storage. Lyophilized stocks not containing sucrose were no longer infective after 5 weeks. / Master of Science
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Comparing influenza virus hemagglutinin (HA) expression in three different baculovirus expression systemsElliott, Alexandra 05 September 2012 (has links)
In this study, the expression of HA, a key immunogenic protein of influenza viruses, in insect cells was compared using three baculovirus expression strategies: protein over-expression, surface (GP64) display, and capsid (VP39) display. Further, a recombinant virus expressing NA, another immunogenic influenza virus protein, was generated and fused to an HA epitope-tag. Western immunoblot using various antibodies, including those against HA, demonstrated the expression of HA and NA for all recombinant viruses. HA showed stronger expression when fused to the C-terminus of VP39 than the N-terminus, but unlike other expression methods, there was no observable cleavage of HA in VP39-displayed viruses. Cells infected with only over-expressed and surfaced-displayed HA were biologically active, and capable of hemadsorption and hemagglutination of chicken red blood cells. These results suggest that GP64 display or over-expression are the most efficacious modes of HA-expression for use as antigen to detect anti-HA antibodies in poultry. / NSERC, OGS, OMAFRA, CPRC
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Functional characterization of the Cydia pomonella granulovirus matrix metalloproteaseIshimwe, Egide January 1900 (has links)
Master of Science / Department of Biology / A. Lorena Passarelli / Cydia pomonella granulovirus (CpGV) is a member of the Baculoviridae family of viruses. The CpGV open reading frame 46 (CpGV-ORF46) predicts a 545 amino acid protein that shares homology with matrix metalloproteases (MMPs), a family of zinc-dependent endopeptidases that degrade extracellular matrix proteins. In silico analyses revealed the presence of putative mmp genes in all species from the Betabaculovirus genus, while no mmps were identified in members of the Alphabaculovirus, Gammabaculovirus or Deltabaculovirus genera. Unlike most cellular MMPs, baculovirus MMPs do not have a propeptide domain, a domain involved in regulating MMP activation, or a hemopexin-like domain, which is necessary for substrate binding and specificity in many MMPs. However, Betabaculovirus MMPs do contain a predicted conserved zinc-binding motif (HEXGHXXGXXHS/T) within their catalytic domain. The function of CpGV-MMP and its effects on baculovirus replication in cultured cells and insect larvae were investigated. CpGV-MMP was expressed in and purified from Escherichia coli, and activity was measured using a generic MMP substrate in vitro. CpGV-MMP had in vitro activity and its activity was specifically inhibited by MMP inhibitors. To study the effects of CpGV-MMP on virus replication and dissemination, CpGV-MMP was expressed from Autographa californica nucleopolyhedrovirus (AcMNPV) under the control of a strong and constitutive promoter, the Drosophila heat shock 70 protein promoter. Expression of CpGV-MMP did not affect virus replication in cultured cells. The effects of expressing CpGV-MMP from AcMNPV during larval infection were evaluated in the presence or absence of the AcMNPV chitinase and cathepsin genes. Insect bioassays showed that the absence of cathepsin resulted in a significant delay in larval time of death; however, this delay was compensated by expression of CpGV-MMP. In addition, larval time of death was accelerated when cathepsin, chitinase, and CpGV-MMP were all expressed. Finally, we determined the effects of CpGV-MMP on larvae melanization and liquefaction. CpGV-MMP was able to promote larvae melanization in the absence of cathepsin. CpGV-MMP, in the absence of cathepsin, was not able to promote larvae liquefaction. When chitinase was engineered to be secreted from cells, CpGV-MMP rescued liquefaction in the absence of cathepsin. In conclusion, CpGV-MMP is a functional MMP which can enhance larvae mortality with the presence of cathepsin. In addition, CpGV-MMP can promote larvae melanization; however, it can only promote liquefaction when chitinase is engineered to be secreted from cells.
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The molecular architecture of <i>Mamestra configurata</i> Petitrophic MatrixToprak, Umut 22 March 2011
<p>The peritrophic matrix (PM) lines the insect midgut and is composed of chitin and protein. It is required for organization of digestion and for protection of epithelial cells from mechanical damage, pathogens, and toxins. The PM of <i>Mamestra configurata</i> (Lepidoptera: Noctuidae), bertha armyworm, a serious pest of cruciferous oilseed rape, was studied. The multilayered PM is delaminated from the anterior midgut epithelium during molting Phase II by periodic pulses and degraded during the molting Phase I stage. These events are controlled by chitin synthase-B, and chitinolytic enzymes, such as chitinase and β-<i>N</i>-acetylglucosaminidase. Eighty-two PM proteins were identified and classified as: i) peritrophins, ii) enzymes and iii) other proteins. Peritrophins were further classified as simple, binary, complex and repetitive according to their structural organization and phylogenetic analysis of peritrophin A domains. The expression of most genes encoding PM proteins was specific to the midgut and independent of larval feeding status, developmental stage, or PM formation.</p>
<p>This study includes the first report of chitin deacetylase (CDA) activity in the insect midgut suggesting that the PM may contain chitosan. Digestive enzymes, such as insect intestinal lipases (IILs) and serine proteases were also associated with the PM. The IIL genes differed in their expression during larval development; however, serine protease genes were expressed continuously and serine protease activity was present in the midgut of feeding and nonfeeding stages. <i>M. configurata</i> IIM4, a complex peritrophin, was susceptible to degradation by Mamestra configurata nucleopolyhedrovirus-A challenge, as the first evidence of IIM degradation by an alphabaculovirus enhancin. <i>M. configurata</i> IIM2, a binary peritrophin, was unaffected by baculoviral challenge and such resistance of an IIM has not been reported previously. The current study is also the first demonstration of silencing by RNA interference (RNAi) of any gene encoding a PM protein, in this case <i>M. configurata</i> CDA1 (McCDA1) and McPM1. In addition, both <i>in vitro</i> and <i>per os</i> feeding experiments revealed <i>McCDA1</i> silencing starting at 24 or 36 hours posttreatment, as one of the most successful demonstrations of RNAi in a lepidopteran.</p>
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Production and cleavage specificity determination of serine proteases mMCP-4, mMCP-5, rMCP-2 and two platypus serine proteases of the chymase locus.Sidibeh, Cherno Omar January 2013 (has links)
Serine proteases are a family of enzymes with a wide array of functions across both eukaryotes and prokaryotes. Here we have attempted to produce the serine proteases rat mast cell protease 2 and mouse mast cell protease 5 in a culture of HEK 293 cells; and mouse mast cell protease 4, platypus granzyme B-like protease and platypus hypothetical protease in a baculovirus expression system. Following production we wanted to analyse these serine proteases using a phage display assay and a battery of chromogenic substrates.
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The molecular architecture of <i>Mamestra configurata</i> Petitrophic MatrixToprak, Umut 22 March 2011 (has links)
<p>The peritrophic matrix (PM) lines the insect midgut and is composed of chitin and protein. It is required for organization of digestion and for protection of epithelial cells from mechanical damage, pathogens, and toxins. The PM of <i>Mamestra configurata</i> (Lepidoptera: Noctuidae), bertha armyworm, a serious pest of cruciferous oilseed rape, was studied. The multilayered PM is delaminated from the anterior midgut epithelium during molting Phase II by periodic pulses and degraded during the molting Phase I stage. These events are controlled by chitin synthase-B, and chitinolytic enzymes, such as chitinase and β-<i>N</i>-acetylglucosaminidase. Eighty-two PM proteins were identified and classified as: i) peritrophins, ii) enzymes and iii) other proteins. Peritrophins were further classified as simple, binary, complex and repetitive according to their structural organization and phylogenetic analysis of peritrophin A domains. The expression of most genes encoding PM proteins was specific to the midgut and independent of larval feeding status, developmental stage, or PM formation.</p>
<p>This study includes the first report of chitin deacetylase (CDA) activity in the insect midgut suggesting that the PM may contain chitosan. Digestive enzymes, such as insect intestinal lipases (IILs) and serine proteases were also associated with the PM. The IIL genes differed in their expression during larval development; however, serine protease genes were expressed continuously and serine protease activity was present in the midgut of feeding and nonfeeding stages. <i>M. configurata</i> IIM4, a complex peritrophin, was susceptible to degradation by Mamestra configurata nucleopolyhedrovirus-A challenge, as the first evidence of IIM degradation by an alphabaculovirus enhancin. <i>M. configurata</i> IIM2, a binary peritrophin, was unaffected by baculoviral challenge and such resistance of an IIM has not been reported previously. The current study is also the first demonstration of silencing by RNA interference (RNAi) of any gene encoding a PM protein, in this case <i>M. configurata</i> CDA1 (McCDA1) and McPM1. In addition, both <i>in vitro</i> and <i>per os</i> feeding experiments revealed <i>McCDA1</i> silencing starting at 24 or 36 hours posttreatment, as one of the most successful demonstrations of RNAi in a lepidopteran.</p>
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Real Time PCR Protocol Development for Rapid and Low Cost Quantification of Baculovirus and for Monitoring Progression of InfectionGeorge, Steve January 2010 (has links)
The work presented in this thesis aims to further the understanding and implementation of the Baculovirus Expression Vector System (BEVS) for varied uses such as protein production and viral vector production. To this end, three projects have been presented, two of which deal with methods to quantify baculovirus titres and the last deals with tracking baculovirus transcripts in infected insect cells.
The first project examined assumption-free analysis as a method for data analysis of Real Time PCR data in order to enable direct comparison of baculovirus titres between samples, without the need for a traditional standard curve. It concluded that assumption-free analysis was well suited for this purpose and fold differences of baculovirus titres of different samples obtained using this method corresponded to real differences in sample titres.
The second project aimed to develop a cheap and reliable method for sample preparation for Real Time PCR which would remove the need for the use of commercially available extraction kits. Samples were subjected to various combinations of Triton X-100 at different concentrations and different numbers of freeze/thaw cycles in order to determine the combination which would provide the best baculovirus genome exposure. One of these combinations was found to be at least as good as commercially available kits in reliably extracting baculovirus DNA and providing baculovirus titres that are at least as accurate.
The third project was a preliminary study examining the effects of multiplicity of infection on the levels of baculovirus Gp-64 transcript in insect cell culture. The study concludes that at high multiplicities of infection, there seems to be no increase in baculovirus transcripts when the multiplicity of infection is further increased. This study served to allow for familiarization with tracking transcript levels, and the principles and techniques demonstrated here will form the basis for an exhaustive future study on the same subject.
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Real Time PCR Protocol Development for Rapid and Low Cost Quantification of Baculovirus and for Monitoring Progression of InfectionGeorge, Steve January 2010 (has links)
The work presented in this thesis aims to further the understanding and implementation of the Baculovirus Expression Vector System (BEVS) for varied uses such as protein production and viral vector production. To this end, three projects have been presented, two of which deal with methods to quantify baculovirus titres and the last deals with tracking baculovirus transcripts in infected insect cells.
The first project examined assumption-free analysis as a method for data analysis of Real Time PCR data in order to enable direct comparison of baculovirus titres between samples, without the need for a traditional standard curve. It concluded that assumption-free analysis was well suited for this purpose and fold differences of baculovirus titres of different samples obtained using this method corresponded to real differences in sample titres.
The second project aimed to develop a cheap and reliable method for sample preparation for Real Time PCR which would remove the need for the use of commercially available extraction kits. Samples were subjected to various combinations of Triton X-100 at different concentrations and different numbers of freeze/thaw cycles in order to determine the combination which would provide the best baculovirus genome exposure. One of these combinations was found to be at least as good as commercially available kits in reliably extracting baculovirus DNA and providing baculovirus titres that are at least as accurate.
The third project was a preliminary study examining the effects of multiplicity of infection on the levels of baculovirus Gp-64 transcript in insect cell culture. The study concludes that at high multiplicities of infection, there seems to be no increase in baculovirus transcripts when the multiplicity of infection is further increased. This study served to allow for familiarization with tracking transcript levels, and the principles and techniques demonstrated here will form the basis for an exhaustive future study on the same subject.
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Functions of the viral chitinase (CHIA) in the processing, subcellular trafficking and cellular retention of proV-CATH from Autographa californica multiple nucleopolyhedrovirusHodgson, Jeffrey James 05 January 2012 (has links)
The baculovirus chitinase (CHIA) and cathepsin protease (V-CATH) enzymes cause terminal host insect liquefaction, thereby enhancing dissemination of progeny virions in nature. Regulated and delayed cellular release of these host tissue-degrading enzymes ensures liquefaction starts only after optimal viral replication has occurred. Baculoviral CHIA remains intracellular due to its C-terminal KDEL endoplasmic reticulum (ER) retention motif. However, the intracellular processing and trafficking of the baculovirus v-cath expressed cathepsin (V-CATH) is poorly understood and a mechanism for cellular retention of the inactive V-CATH progenitor (proV-CATH) has not been determined. The cathepsins of Autographa californica multiple nucleoplyhedrovirus (AcMNPV) and most other group I alphabaculoviruses have well-conserved chymotrypsin cleavage (Y11) and myristoylation sites (G12) suggestive of proteolytic cleavage to generate proV-CATH, and subsequent acylation which could promote membrane anchoring in order to foster cellular retention of the protein. Proteolytic iii N-terminal processing of baculoviral procathepsin was determined by fusing HA epitope-coding tags to the 5’ and/or 3’ ends of v-cath, indicating that the gene is expressed as a pre-proenzyme. However no evidence for myristoylation of proV-CATH was found, suggesting that another mechanism is responsible for retaining proV-CATH in cells.
Prior evidence suggested that CHIA is a proV-CATH folding chaperone and that lack of chiA expression causes proV-CATH to become insoluble and unable to mature into V-CATH enzyme. A putative CHIA chaperone activity for assisting in proV-CATH folding implies that proV-CATH and CHIA interact in the ER of infected cells. Fluorescence microscopy demonstrated co-localization of CHIA-GFP and proV-CATH-RFP fusion proteins in the ER. An mRFP-based bimolecular fluorescence complementation (BiFC) assay helped to determine not only that AcMNPV proV-CATH interacts directly with the full-length viral CHIA, but also that it independently binds to the N-terminal chitin-binding domain (CBD) and C-terminal active site domain (ASD) of CHIA, in the ER during virus replication. Moreover, reciprocal Ni/HIS pull-downs of HIS-tagged proteins confirmed the proV-CATH interactions with CHIA, or with the CBD and ASD biochemically. The reciprocal co-purification of proV-CATH with all three polypeptides (CHIA, CBD, ASD) suggests proV-CATH specifically interacts with each of them, and corroborates the BiFC data. Furthermore, CHIA KDEL deletion allowed for premature secretion of not only CHIA but also of proV-CATH, suggesting that the CHIA/proV-CATH interaction in the ER aids cellular retention of proV-CATH. In contrast to prior reports, it was also determined that CHIA is iv dispensable for correct folding of proV-CATH since proV-CATH produced by a chiA-deficient virus was soluble, prematurely secreted from cells and could mature into V-CATH enzyme. Taken together, these data indicate that the viral chitinase plays a major role in ensuring that proV-CATH is neither prematurely secreted nor activated to V-CATH enzyme.
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Characterization of the conserved chiA and v-cath bidirectional promoter of Autographa californica multiple nucleopolyhedrovirus (AcMNPV)Norris, Michael 10 January 2012 (has links)
In the AcMNPV genome, ~28% of the genes are arranged divergently on opposite strands
with an intergenic region of <1 kbp. In this configuration, a bidirectional promoter generally
drives expression of both genes. However, no baculovirus bidirectional promoters have been
characterized in any detail. We chose the AcMNPV chiA/v-cath intergenic region to serve as a
model to characterize transcriptional regulation of bidirectional gene pairs during AcMNPV
infection. We sequentially truncated putative upstream regulatory regions of chiA and v-cath to
identify sequences essential for transcriptional initiation. Forty bp of the chiA gene 5’-flanking
region was sufficient to support chiA transcription at half the level of the AcΔCC+CC repair
virus. Interestingly, v-cath transcription from viruses containing only 40 bp of their upstream
5’-flanking region was found to be higher by 4-fold relative to the level of native expression.
Linker-scanning mutagenesis that inserted 5 bp linkers spanning the chiA/v-cath intergenic
region identified nucleotides critical for the transcriptional activation of both genes. From this,
nucleotides -36 to -45, of the v-cath gene were found to negatively regulate v-cath mRNA
expression. Quantitative RT-PCR studies revealed a 2-4 fold higher chiA mRNA expression
relative to v-cath possibly explaining why translation of CHIA can be detected 6 hours earlier
than V-CATH. This study identifies upstream regions of viral chiA and v-cath required for
initiation of transcription and provides the first insight into baculovirus mechanisms for
transcriptional regulation of interdependent gene pairs.
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