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The mechanism of action of cidofovir and (S)-9-(3-hydroxy-2-phosphonomethoxypropyl) adenine against viral polymerasesMagee, Wendy Colleen. January 2009 (has links)
Thesis (Ph.D.)--University of Alberta, 2009. / Title from pdf file main screen (viewed on Sept. 18, 2009). "A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Virology, Medical Microbiology and Immunology, University of Alberta." Includes bibliographical references.
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The construction of an infectious clone of grapevine virus A (GV A)Du Preez, Jacques 04 1900 (has links)
Thesis (MSc (Genetics))--University of Stellenbosch, 2005. / An infectious clone of a viral RNA genome is one that can be used, either as an in vitro transcript or as
cDNA, to produce an infection in a susceptible plant. Infectious clones serve as a tool to study viral
RNA genomes at a molecular level to gain deeper insight into genome organization, viral gene
function, presence of regulatory sequences and gene expression. In the Western Cape (and elsewhere) a
new crippling grapevine disease, known as Shiraz disease, is emerging of which the aetiology and
pathogenic agents involved are not yet fully understood. Grapevine virus A (GVA), genus Vitivirus,
family Flexiviridae, is thought to be the associated with this disease. The aim of this study was to
construct a full-length infectious cDNA clone of GVA, which will aid in the molecular study of the
viral genome. This clone could ultimately be used to investigate GVA’s involvement in Shiraz disease,
which could lead to the unravelling of the aetiology and control of the disease. A full-length clone of
GVA, named GVA-IC2/T7-2972-3, was constructed in several steps using restriction digestion/ligation
and primer overlap extension PCR. Grapevine virus A cDNA fragments were obtained from GVAinfected
Nicotiana benthamiana and Vitis vinifera plants using three different techniques, of which the
Rapid direct-one-tube RT-PCR was most successful. A 5’ T7 promoter and a 3’ poly-A tail were
incorporated and the full-length clone was cloned into pBluescript II SK (+). Full-length sequencing
of the clone, revealed two significant frameshift mutations. The first mutation was a single base pair
insertion (one G) in a slippery site of 6 G’s at position 1380 – 1385 in open reading frame one (ORF 1)
of the viral genome. This mutation was corrected by PCR-based site-directed mutagenesis, which
resulted in pSK-GVA-mutagen-3 and pSK-GVA-mutagen-4. The second mutation was a single base
pair deletion (one G) at position 6959 in ORF4, which coded for the coat protein (CP). Several
techniques were attempted to correct this mutation, but none were successful. Even though the second
mutation could not be corrected, in vitro transcriptions were performed on three clones followed by
subsequent infections of N. benthamiana plants. The three clones included pSK-GVA-mutagen-3, pSKGVA-
mutagen-4 (both hosting the mutation at position 6959) and GVA-IC2/T7-2972-3 (hosting both
mutations). At 21 days post-inoculation no significant visual symptoms were observed in plants
infected with in vitro RNA or in plants infected with wild type GVA. Rapid direct-one-tube RT-PCR
results revealed the presence of viral RNA in infected leaves and apical leaves of infected plants, and
provided preliminary evidence that the mutated clones were still capable of systemic infection and viral
movement. These results are still inconclusive, and several post-infection studies will have to be
performed to confirm these findings. Koch's postulates will also have to be proved in order to confirm the infectious nature of the clones. The effect of the two mutations in the constructed clones will be
investigated further and post-infection analysis performed to deduce whether the viral progeny are
devoid of the mutations. Three full-length GVA cDNA clones (hosting mutations) seemingly capable
of systemic infection in N. benthamiana plants were constructed in this study and have laid the
foundation for molecular and mutational analysis of the GVA genome. This could lead to the study of
pathogen-host interactions in order to unravel the aetiology of Shiraz disease in the future.
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Etude de la région cis-régulatrice positive associée à un site hypersensible aux nucléases et localisée dans le gène pol du virus HIV-1 (Human Immunodeficiency virus type 1)Goffin, Véronique January 2005 (has links)
Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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E7 PROTEINS OF HIGH-RISK (TYPE 16) AND LOW-RISK (TYPE 6) HUMAN PAPILLOMAVIRUSES REGULATE p130 DIFFERENTLYBarrow, Lisa C. 15 October 2010 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Human papillomaviruses (HPVs) are one of the most common causes of sexually transmitted disease in the world. HPVs are divided into high-risk (HR) or low-risk (LR) types based on their oncogenic potential. HPVs 16 and 18 are considered HR types and can cause cervical cancer. HPVs 6 and 11 are classified as LR and are associated with condyloma acuminata (genital warts). Viral proteins of both HR and LR HPVs must be able to facilitate a replication competent environment. The E7 proteins of LR and HR HPVs are responsible for maintenance of S-phase activity in infected cells. HR E7 proteins target all pRb family members (pRb, p107 and p130) for degradation. LR E7 does not target pRb or p107 for degradation, but does target p130 for degradation. Immunohistochemistry experiments on HPV 6 infected patient biopsies of condyloma acuminata showed that detection of p130 was decreased in the presence of the whole HPV 6 genome. Further, the effect of HR HPV 16 E7 and LR HPV 6 E7 on p130 intracellular localization and half-life was examined. Experiments were performed using human foreskin keratinocytes transduced with HPV 6 E7, HPV 16 E7 or parental vector. Nuclear/cytoplasmic fractionation and immunofluorescence showed that, in contrast to control and HPV 6 E7-expressing cells, a greater amount of p130 was present in the cytoplasm in the
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presence of HPV 16 E7. The half-life of p130, relative to control cells, was decreased in the cytoplasm in the presence of HPV 6 E7 or HPV 16 E7, but only decreased by HPV 6 E7 in the nucleus. Inhibition of proteasomal degradation extended the half-life of p130, regardless of intracellular localization. Experiments were also conducted to detect E7-binding partners. Cyclin C and cullin 5 were identified as proteins capable of binding to both HPV 6 E7 and HPV 16 E7. Preliminary experiments showed that decreasing protein levels of p600, a binding partner of both HPV 6 E7 and HPV 16 E7, by RNA interference might affect p130 stability. Elucidating the mechanisms of p130 degradation may identify potential targets for preventing degradation of p130 and allowing restoration of cell cycle control.
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Tip110 Control of HIV-1 Gene Expression and ReplicationZhao, Weina 23 August 2011 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Transcription and alternative splicing play important roles in HIV-1 gene expression and replication and mandate complicated but coordinated interactions between the host and the virus. Studies from our group have shown that a HIV-1 Tat-interacting protein of 110 kDa, Tip110 synergies with Tat in Tat-mediated HIV-1 gene transcription and replication. However, the underlying molecular mechanisms were not fully understood and are the focus of the dissertation research. In the study, we first demonstrated that Tip110 bound to unphosphorylated RNA polymerase II (RNAPII) in a direct and specific manner. We then showed that Tip110 was detected at the HIV-1 long terminal repeat (LTR) promoter and associated with increased phosphorylation of serine 2 within the RNAPII C-terminal domain (CTD) and increased recruitment of positive transcription elongation factor b (P-TEFb) to the LTR promoter. Consistent with these findings, we demonstrated that Tip110 interaction with Tat directly enhanced transcription elongation of the LTR promoter.
During these studies, we also found that Tip110 altered HIV-1 mRNA alternative splicing and increased tat mRNA production. Subsequent analysis indicated that Tip110 selectively increased tat exons 1-2 splicing by activating HIV-1 A3 splice site but had no function in tat exons 2-3 splicing. We then showed that the preferential splicing activity of Tip110 resulted from Tip110 complex formation with hnRNP A1 protein, a negative splicing regulator that binds to the ESS2 element within tat exon 2, and as a result, blocked the complex formation of hnRNP A1 with ESS2 and subsequently activated HIV-1 A3 splice site. Taken together, these results show that Tip110 functions to regulate HIV-1 transcription elongation and HIV-1 RNA alternative splicing. These findings not only add to our understanding of Tip110 biology and function but also uncover a new potential target for development of anti-HIV intervention and therapeutic strategies.
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Influenza A viruses and PI3K signallingHale, Benjamin G. January 2007 (has links)
The influenza A virus non-structural (NS1) protein is multifunctional, and during virus-infection NS1 interacts with several factors in order to manipulate host-cell processes. This study reports that NS1 binds directly to p85β, a regulatory subunit of phosphoinositide 3-kinase (PI3K), but not to the related p85α. Expression of NS1 was sufficient to activate PI3K and cause the phosphorylation of a downstream mediator of PI3K signalling, Akt. However, in virus-infected MDCK cells, the kinetics of Akt phosphorylation did not correlate with NS1 expression, and suggested that negative regulation of this signalling pathway occurs subsequent to ~8h post-infection. Mapping studies showed that the NS1:p85β interaction is primarily mediated by the NS1 C-terminal domain and the p85β inter-SH2 (Src homology 2) domain. Additionally, the highly conserved tyrosine at residue 89 (Y89) of NS1 was found to be important for binding and activating PI3K in a phosphorylation-independent manner. The inter-SH2 domain of p85β is a coiled-coil structure that acts as a scaffold for the p110 catalytic subunit of PI3K. As NS1 does not displace p110 from the inter-SH2 domain, a model is proposed whereby NS1 forms an active heterotrimeric complex with PI3K, and disrupts the ability of p85β to control p110 function. Biological studies revealed that a mutant influenza A virus (Udorn/72) expressing NS1 with phenylalanine substituted for tyrosine-89 (Y89F) exhibited a small-plaque phenotype, and grew more slowly in MDCK cells than wild-type virus. Unexpectedly, another mutant influenza A virus strain (WSN/33) expressing NS1-Y89F was not attenuated in MDCK cells, yet appeared to be less pathogenic than wild-type in vivo. Overall, these data indicate a role for NS1-mediated PI3K activation in efficient influenza A virus replication. The potential application of this work to the design of novel anti-influenza drugs and vaccine production is discussed.
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Hammerhead mediated self-cleavage of plant pathogenic RNAs / by Candice Claire Sheldon.Sheldon, Candice Claire January 1992 (has links)
Bibliography : leaves 92-99. / v, 99, [37] leaves, [14] leaves of plates : ill. ; 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 Biochemistry, 1992
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Biophysical properties of the turnip yellow mosaic virus explored by coat protein mutagenesisPowell, Joshua D. 05 April 2012 (has links)
Plant viruses have been instrumental in our understanding of the biophysical properties pertaining to non-enveloped icosahedral virus particles. A substantial amount of research has been performed over five decades on Turnip yellow mosaic virus (TYMV), arguably one of the most extensively studied icosahedral plant viruses and the type-member of the Tymovirus plant virus genus. Even with a substantial body of published scientific literature, little is known about the role of specific coat protein (CP) residues in TYMV assembly, disassembly and disencapsidation.
We have shown through our mutagenesis studies that the N-terminal region of the CP that is involved in the formation of an annulus structure and is disordered in A-subunit pentamers is not essential in vivo, but annulus-forming residues are critical in ensuring virion stability and low accessibility after virus is purified (Chapter 2). We have shown that a range of amino acid residue types is tolerated within the CP N-terminus in vivo, although they can greatly affect the stability of virions and empty particles, most notably at low pH (Chapter 3). Unlike full-length CP, N-terminal deletion and substitution mutants fail to reassemble into particles in vitro (Chapter 2, 3) suggesting a critical determinant for the N-terminus in reassembly (discussed Chapter 7). This is the first documented in vitro reassembly reported for a member of the Tymoviridae family and should provide a framework for further studies. We have identified a new way to create empty artificial top component (ATC)-particles through treatment with EDTA (Chapter 6) and we also show that tymoviruses can be engineered with altered pH-dependent enhanced stability (Chapter 4). In collaboration with the Qian Wang laboratory from the University of South Carolina we have shown that an RGD (Arg-Gly-Asp) motif can be genetically engineered within the CP of TYMV, resulting in infectious particles with attractive stem-cell adhesion properties (Chapter 5). With focus on basic viral mechanisms, we have crystallized the TYMV virion and ATC particle at pH 7.7 and collected data to less than 5 Å resolution (Chapter 4, supplementary). These structures represent the first tymovirus-based structures solved above pH 5.5 and will provide insight into the N-terminal conformations within the TYMV particle. Finally, we have characterized an N-terminal CP cleavage seen after ATC formation (Chapter 4) suggesting an additional and yet uncharacterized feature associated with decapsidation. / Graduation date: 2012
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Etude de la réponse des lymphocytes T CD4+ au cours de l'infection primaire par le cytomégalovirus / CD4+ T lymphocyte response to primary cytomegalovirus infectionAntoine, Pierre 28 October 2014 (has links)
L’infection par le cytomégalovirus est le plus souvent asymptomatique chez les sujets immunocompétents mais entraine une morbidité et une mortalité importantes chez les patients immunocompromis et en cas d’infection congénitale.<p>Après l’infection primaire, le virus persiste tout au long de la vie à l’état latent mais peut se réactiver de manière intermittente. Ceci est associé à l’expansion de lymphocytes T CD4+ fortement différenciés ayant des fonctions auxiliaires et cytolytiques. L’infection primaire est, par contre, caractérisée par une réplication virale intense qui dure plusieurs mois. Il a été montré que l’exposition prolongée à des concentrations élevées d’antigènes entraine une perte progressive de fonction par les lymphocytes T appelée épuisement et caractérisée par l’expression de récepteurs inhibiteurs. L’impact de la réplication virale intense observée au cours de l’infection primaire par le CMV sur la fonction des lymphocytes T CD4+ n’est pas bien connu.<p>La fonctionnalité des lymphocytes T CD4+ a été explorée chez l’humain et le singe rhésus au cours de l’infection primaire et comparée à celle de sujets porteurs chroniques du virus.<p>Les résultats montrent que l’infection primaire par le CMV est associée à la détection de lymphocytes T CD4+ circulants ayant une faible capacité de prolifération et de production de cytokines et d’IL-2 en particulier.<p>L’impact de la différenciation sur la fonction des lymphocytes a été exploré en détail chez l’humain. Il a été observé qu’un degré de différenciation plus élevé des lymphocytes T CD4+ spécifiques du CMV joue un rôle dans la production réduite d’IL-2. Toutefois, la fraction moins différenciée (exprimant la molécule CD28) présente également une sécrétion d’IL-2 moindre au cours de l’infection primaire. Ceci fait partie d’une diminution globale de la production de cytokines au cours de l’infection primaire qui affecte également la sécrétion d’IFNγ et TNFα, entraine une polyfonctionnalité réduite et est indépendante de la différenciation. L’épuisement des lymphocytes T CD4+ spécifiques du CMV contribue à leur fonctionnalité moindre comme l’indique l’expression accrue du récepteur inhibiteur PD-1 et l’augmentation des réponses prolifératives en présence d’anticorps bloquant PD-1.<p>Le lien entre excrétion virale et fonction lymphocytaire a été étudié chez le macaque rhésus. L’infection par le CMV est observée chez les singes juvéniles et adultes mais pas chez les nourrissons. L’excrétion urinaire et salivaire est significativement plus fréquente et intense chez les singes juvéniles par rapport aux adultes. Comme chez l’humain au cours de l’infection primaire, les lymphocytes T CD4+ spécifiques du virus sont moins<p>polyfonctionnels et prolifèrent moins efficacement chez les singes juvéniles par rapport aux singes adultes. Ceci est associé à l’expression accrue du récepteur inhibiteur PD-1 chez les singes juvéniles. La réponse proliférative des lymphocytes T CD4+ est accrue en présence d’anticorps bloquant PD-1 ou d’IL-2 exogène. Enfin, une association inverse entre fonction lymphocytaire et excrétion urinaire a été mise en évidence chez les macaques adultes.<p>Ces résultats indiquent que l’infection par le CMV présente des caractéristiques semblables chez l’humain et le singe rhésus. L’infection primaire est associée à la détection de lymphocytes T CD4+ ayant une fonctionnalité moindre qu’au cours de l’infection chronique. L’expression du récepteur inhibiteur PD-1 typique des cellules épuisées est l’un des mécanismes impliqués et pourrait être la cible de stratégies immunomodulatrices visant à améliorer les fonctions lymphocytaires et le contrôle de la réplication virale. Les résultats présentés indiquent que l’infection naturelle chez le singe rhésus constitue un modèle potentiellement utile à l’étude de la réponse immune au CMV humain et à l’évaluation de stratégies immunomodulatrices.<p>/<p>Cytomegalovirus infection is mostly asymptomatic in immunocompetent hosts but leads to severe morbidity and mortality in immunocompromised subjects and foetuses.<p>After primary infection, CMV establishes lifelong persistence but can reactivate intermittently. This is associated with the expansion of highly differentiated CD4+ T lymphocytes exhibiting helper functions and cytolytic activity.<p>Primary infection is characterised by an intense viral replication lasting several months. It has been shown that prolonged exposure to elevated antigen concentrations induces a progressive loss of function by T lymphocytes called exhaustion. This state of functional impairment is associated to the expression of inhibitory receptors. The consequence of the intense viral replication seen in primary CMV infection on CD4+ T cell function is unknown.<p>CD4+ T cell function has been studied in human and rhesus macaque during primary CMV infection. Chronic CMV carriers have been used as controls.<p>The results show that primary CMV infection is associated to the detection of circulating CD4+ T lymphocytes exhibiting weak proliferative capacities and reduced cytokine production affecting IL-2 in particular.<p>The impact of differentiation on lymphocyte function has been explored in detail in human. An increased proportion of terminally differentiated CD4+ T cells (CD28-) is observed during primary infection. These lymphocytes are unable to secrete IL-2 in response to CMV antigens. Interestingly, CD28+ CMV-specific CD4+ T cells also exhibit reduced IL-2 production during primary infection. This is part of a global reduction of cytokine production affecting IFNγ and TNFα as well. The impaired cytokine production is associated to reduced polyfunctionality and is independent of differentiation. Exhaustion of CMV-specific CD4+ T lymphocytes contributes to the reduced functionality as shown by an increased expression of the inhibitory receptor PD-1 and improved proliferative responses in the presence of PD-1 blocking antibodies.<p>The relationship between viral replication and lymphocyte function has been explored in rhesus macaques. CMV infection is observed in juvenile and adult monkeys but not in newborns. Excretion in urine and saliva is significantly more frequent and intense in juvenile monkeys than adults. As in primary infection in human, CMV-specific CD4+ T lymphocytes are less polyfunctional and have lower proliferative capacities in juveniles as compared to adults. This is associated with an increased expression of PD-1 in juvenile monkeys. CD4+ T cell proliferative responses are increased when PD-1 blocking antibodies or exogenous IL-2 are added to the culture medium. Finally, an inverse association between lymphocyte function and urinary excretion has been observed in adult macaques.<p>These results indicate that CMV infection shares common features in human and rhesus macaque. Primary infection is associated to the detection of CD4+ T lymphocyte displaying lower functional capacities as compared to chronic infection. Exhaustion contributes to the functional impairment and the inhibitory receptor PD-1 could be targeted by immunomodulatory strategies aiming at improving lymphocyte functions and controlling viral replication. Natural CMV infection in rhesus macaque might be useful as a model to evaluate the efficacy and safety of immunomodulatory approaches. / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished
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Etude de la réactivation de l'expression des provirus HIV-1 latents par la prostratine en synergie avec des inhibiteurs de désacétylases: mécanismes moléculaires impliqués et potentiel thérapeutiqueReuse, Sophie 17 December 2009 (has links)
L’infection par HIV-1 représente un des problèmes de santé publique majeurs de notre société actuelle. Le traitement HAART (Highly Active AntiRetroviral Therapy) inhibe le cycle réplicatif viral mais ne permet pas l’éradication du HIV-1. La principale cause de cet échec thérapeutique est la persistance de réservoirs cellulaires infectés de manière latente par HIV-1, qui, lors de l’arrêt du traitement HAART, sont à l’origine d’un rebond de la charge plasmatique virale. Le défi actuel est donc de découvrir de nouvelles méthodes d’élimination des cellules réservoirs. Une des stratégies envisagées est de forcer l’expression virale dans les cellules infectées de manière latente afin d’entraîner leur destruction suite à leur détection par le système immunitaire ou suite aux effets cytopathiques viraux. Parallèlement, le traitement HAART serait maintenu afin de limiter la propagation des virions néo-synthétisés. Plusieurs éléments sont impliqués dans la répression transcriptionnelle associée à la latence post-intégrationnelle du virus HIV-1 :la nature du site d’intégration ;l’absence de facteurs cellulaires inductibles tels que NF-κB ;la structure chromatinienne du provirus et les modifications post-traductionnelles des histones ;l’absence de niveaux suffisants de la protéine trans-activatrice Tat. De plus, notre laboratoire a précédemment mis en évidence un lien entre deux de ces éléments, en démontrant, dans une lignée modèle de latence post-intégrationnelle, que la cytokine pro-inflammatoire TNFα, un activateur de la voie de signalisation NF-κB, permet une réactivation synergique de l’expression virale combinée à l’inhibiteur d’histone-désacétylases (HDACI) TSA. Cependant, l’utilisation thérapeutique du TNFα et de la TSA est inenvisageable en raison de leurs toxicités.<p>\ / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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