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131	Analyse et modélisation de nouveaux inhibiteurs non nucléosidiques de la transcriptase inverse du virus de l'immunodéficience humaine de type 1 (VIH-1). Boland, Sandro 27 February 2004 (has links) Résumé Le virus de l’immunodéficience humaine (VIH) est l’agent pathogène responsable du Syndrome del’Immunodéficience Acquise (SIDA). A l’heure actuelle, le traitement des patients infectés par le VIH estbasé sur l’emploi de substances chimiques destinées à perturber les différentes étapes du cycle deréplication du virus (chimiothérapie). Même si elles permettent d’améliorer l’état de santé des patientset d’augmenter leur espérance de vie, ces thérapies restent coûteuses, contraignantes et imparfaites.La recherche de nouveaux composés plus efficaces reste donc d’actualité. Ce travail de thèse est dédié à la conception rationnelle et à l’étude d’inhibiteurs non nucléosidiques dela transcriptase inverse du VIH-1 (INNTI) une enzyme essentielle au cycle de réplication de ce virus.Les molécules étudiées dérivent du cycle 2-pyridinone dont sont déjà issues plusieurs familles d’INNTIdécrites dans la littérature. La conception rationnelle de molécules d’intérêt pharmaceutique nécessite une bonne compréhensiondes interactions mises en jeu entre la macromolécule cible et ses ligands. Etant donné qu’aucunestructure cristallographique d’un complexe TI-pyridinone n’est disponible dans la littérature, la premièrepartie de ce travail est consacrée à la proposition d’un mode d’interaction TI-pyridnone et à larationalisation des relations structure-activité liées à cette famille de molécules. Les informationsrecueillies lors de cette étude théorique sont ensuite exploitées dans le but d’aider au développementd’une nouvelle série d’inhibiteurs. Abstract Human Immunodeficiency Virus (HIV) is the causative agent of Acquired Immune DeficiencySyndrome (AIDS). Treatment of HIV-infected patients is currently based on the use of chemicalcompounds that interfere with various steps of the viral replication cycle (chemotherapy).Although these therapies allow for a significant improvement of a patient’s health, theynonetheless remain imperfect and expensive. Research for new and improved anti-HIVcompounds is therefore necessary. This Ph. D. thesis is dedicated to the rational design and analysis of new non nucleosideinhibirors of HIV-1 reverse transcriptase (NNRTI), a key enzyme in HIV lifecycle. Most of thestudied compounds are derived from the 2-pyridinone ring, that is part of several NNRTIfamilies. Rational drug design usually requires a good understanding of the main interactions betweenthe macromolecular target (RT) and its ligands. However, no crystal structure of a RT-pyridinone complex has been reported yet. Our first objective was therefore to build atheoretical model describing RT-pyridinone interactions and providing a better understanding ofstructure-activity relationships among pyridinones. The information obtained in this theoreticalmodel was then used in order to develop new and potent inhibitors. INNTI non nucléoside pyridinone modélisation moléculaire conception rationelle pharmacophore HIV-1 antivirals reverse transcriptase inhibitor non-nucleoside rational drug design molecular modeling pharmacophore inhibiteur transcriptase inverse antiviraux VIH-1 pyridinone
132	Studies of Retroviral Reverse Transcriptase and Flaviviral Protease Enzymes as Antiviral Drug Targets : Applications in Antiviral Drug Discovery & Therapy Junaid, Muhammad January 2012 (has links) Viruses are a major threat to humans due to their unique adaptability, evolvability and capability to control their hosts as parasites and genetic elements. HIV/AIDS is the third largest cause of death by infectious diseases in the world, and drug resistance due to the viral mutations is still the leading cause of treatment failure. The flaviviruses, such as Dengue virus (DEN) and Japanese encephalitis virus (JEV), represent other major cause of morbidity and mortality, and the areas where these viruses are endemic are spreading rapidly. No curative therapy for any flavivirus could be made available as yet. The first part of this thesis focuses on the HIV-1 drug resistance caused by mutations in a major HIV drug target, the HIV-1 reverse transcriptase (RT) as a response to the largest class of clinically used anti-retrovirals, the NRTIs. A robust proteochemometric model was created to analyse the complex mutation patterns in RT drug resistance. The model identified more than ten frequently-occurring mutations, each conferring at least two-fold decrease in susceptibility for one or several NRTIs. Using our prediction server (hivdrc.org), the model can be applied to propose optimum combination therapy for patients harbouring mutated HIV variants. The second part of the thesis encompasses studies on a promising drug target, the NS2B(H)-NS3pro, in two flaviviruses, namely the dengue virus (DEN) and Japanese encephalitis virus (JEV). Functional determinants of DEN NS2B(H)-NS3pro were identified by site-directed mutagenesis. Further, peptide inhibitors were designed using proteochemometrics (PCM) and statistical molecular design (SMD), synthesized and assayed on DEN proteases, which resulted in some novel peptides with low micromolar or sub-micromolar inhibitor activity. The very poorly characterised JEV NS2B(H)-NS3pro was cloned, purified and the kinetic parameters of this attractive drug target were determined for a series of model substrates and inhibitor. The results identified the role in target-ligand interaction of different residues on specific positions in the target (NS2B(H)-NS3pro) and ligands (substrates/inhibitors). Overall, the findings in this thesis contribute to rational antiviral drug discovery and therapy. Virus enzymes HIV/AIDS retroviral reverse transcriptase flaviviral protease NRTIs proteochemometrics drug resistance DEN JEV NS2B(H)-NS3pro antiviral drug targets drug discovery drug therapy.
133	Reverse Transcriptase Activity Assays for Retrovirus Quantitation and Characterization Malmsten, Anders January 2005 (has links) Reverse transcriptase (RT) is a crucial enzyme for retrovirus replication, and its presence in the virion is indispensable for infectivity. This thesis illustrates the use of RT activity assays as tools for quantitation and characterization of different retroviruses, particularly HIV. A non radioactive assay, using microtiter plates, for the RT of Moloney murine leukemia virus (MMuLV) was developed. Assay conditions for MMuLV and HIV-1 RT, together with isozyme specific RT activity blocking antibodies, were shown useful for discrimination between RTs from different retrovirus genera. RT activity assay for HIV-1 was found to quantitate different subtypes more equally efficient than p24 antigen assays did. Viral load (VL), the amount of HIV particles in the blood, is an important marker of the clinical status of an infected person. A method for VL determination based on RT activity (ExaVir Load) was developed. After plasma pretreatment, to inactivate cellular DNA polymerases, virions in patient plasma were immobilized on a gel, which was washed to remove disturbing factors. The virions were lysed with a detergent containing buffer and the lysate eluted. Finally, the RT activity in the lysate was determined and found to correlate strongly to VL by RNA according to a PCR based standard method (Roche Amplicor 1.5). The second version of the method was able to measure VL down to approximately 400 HIV-1 RNA copies/ml. The usefulness of RT from the VL procedure for determination of susceptibility towards anti-HIV drugs was demonstrated, and the results were in agreement with genotypic data. Due to its technical simplicity, and ability to detect a broad range of HIV-1 subtypes, ExaVir Load and the drug susceptibility application are interesting for clinical use, particularly but not only in resource limited settings. The concept is also potentially useful for research purposes, e.g. in combination with specific RT assay conditions. Medicine retrovirus reverse transcriptase enzyme activity assay MuLV HIV RT purification viral load drug susceptibility Medicin
134	Mutations in atpG affect postranscriptional expression of pckA in <i>Escherichia coli</i> Permala-Booth, Jasnehta 05 May 2008 Prokaryotic cells such as Escherichia coli use glucose as their preferred carbon source. In the absence of glucose, these cells resort to other sources to generate glucose and this process of de novo synthesis of glucose is termed gluconeogenesis. Phosphoenolpyruvate carboxykinase (Pck) is one of the three enzymes important in regulating gluconeogenesis. It converts oxaloacetic acid (OAA) from the Krebs cycle to phosphoenolpyruvate (PEP), a glycolytic intermediate. The Pck structural gene (pckA) is regulated by catabolite repression. There is a 100-fold induction of pckA-lacZ fusions at the onset of stationary phase concurrent with induction of glycogen synthesis. Mutants affecting the expression of pckA were analysed to shed some light on the mechanism of its genetic regulation.<p>Spontaneous mutants isolated with Pck- (lack of PEP carboxykinase activity) and Suc- (inability to utilise succinate as carbon source) phenotypes were previously characterised as atpG mutants defective in the ã subunit of ATP synthase.<p>In this work we find by reverse transcriptase and real time quantitative PCR that levels of pckA mRNA are normal in the atpG mutants and that the defects in expression of pckA are therefore likely at the level of translation, protein assembly and/or protein degradation. As expected, ATP synthase activity and proton pumping in inside-out membrane vesicles were defective in these atpG mutants. It is likely that one of these defects is affecting regulation or expression of the pckA gene. It was observed that atpG mutants were defective in calcium-dependent transformation although they could be made competent for electroporation. The atpG mutants were also defective for growth of P1 bacteriophage although they could serve as recipients for P1-dependent generalised transduction. These latter phenotypes are also likely due to defects in energy metabolism. fluorescence quenching real time reverse transcriptase PCR gene regulation PEP carboxykinase atpG mutants ATP synthase gluconeogenesis Escherichia coli genetics acridine orange
135	Mutations in atpG affect postranscriptional expression of pckA in <i>Escherichia coli</i> Permala-Booth, Jasnehta 05 May 2008 (has links) Prokaryotic cells such as Escherichia coli use glucose as their preferred carbon source. In the absence of glucose, these cells resort to other sources to generate glucose and this process of de novo synthesis of glucose is termed gluconeogenesis. Phosphoenolpyruvate carboxykinase (Pck) is one of the three enzymes important in regulating gluconeogenesis. It converts oxaloacetic acid (OAA) from the Krebs cycle to phosphoenolpyruvate (PEP), a glycolytic intermediate. The Pck structural gene (pckA) is regulated by catabolite repression. There is a 100-fold induction of pckA-lacZ fusions at the onset of stationary phase concurrent with induction of glycogen synthesis. Mutants affecting the expression of pckA were analysed to shed some light on the mechanism of its genetic regulation.<p>Spontaneous mutants isolated with Pck- (lack of PEP carboxykinase activity) and Suc- (inability to utilise succinate as carbon source) phenotypes were previously characterised as atpG mutants defective in the ã subunit of ATP synthase.<p>In this work we find by reverse transcriptase and real time quantitative PCR that levels of pckA mRNA are normal in the atpG mutants and that the defects in expression of pckA are therefore likely at the level of translation, protein assembly and/or protein degradation. As expected, ATP synthase activity and proton pumping in inside-out membrane vesicles were defective in these atpG mutants. It is likely that one of these defects is affecting regulation or expression of the pckA gene. It was observed that atpG mutants were defective in calcium-dependent transformation although they could be made competent for electroporation. The atpG mutants were also defective for growth of P1 bacteriophage although they could serve as recipients for P1-dependent generalised transduction. These latter phenotypes are also likely due to defects in energy metabolism. fluorescence quenching real time reverse transcriptase PCR gene regulation PEP carboxykinase atpG mutants ATP synthase gluconeogenesis Escherichia coli genetics acridine orange
136	Inhibitory effects of food matrices on inhibition real-time reverse transcription polymerase chain reaction detection of foodborne viruses [electronic resource] / by Kevin Patrick Mcmullen. Mcmullen, Kevin Patrick. January 2003 (has links) Title from PDF of title page. / Document formatted into pages; contains 57 pages. / Thesis (M.S.P.H.)--University of South Florida, 2003. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: The Centers for Disease Control and Prevention estimated 23,000,000 cases of viral gastroenteritis caused by Norovirus in 2000, 40% of which were transmitted by food including: a variety of fresh produce, cake, deli meats, fruit salad, cheeses and ice. (CDC, 2003). An estimated 83,391 cases of Hepatitis A virus was reported in 2000, of which 5% was attributed to foodborne transmission (CDC, 2003). These figures underscore an urgent need for a method that can isolate virus from a variety of food matrices. The aim of this study was to develop an overall assessment of the inhibitory effects of a variety of food matrices on Real Time Reverse Transcriptase Polymerase Chain Reaction (RT-PCR). / ABSTRACT: Additionally, to compare a sequence specific hybridization probe amplification format to a non sequence specific SYBR Green format using the Roche LightCycler. The secondary aim was to evaluate the effectiveness of a food virus concentration and isolation protocol under development at the Florida Department of Health Bureau of Laboratories, Tampa. Three food specimens consisting of prepackaged smoked ham, fresh cilantro, and Thompson's green grapes were seeded with three dilutions of poliovirus 3 (Sabin strain). A viral concentration procedure under development at the Florida Department of Health Bureau of Laboratories, Tampa was used to isolate the virus. Real Time RT-PCR was carried out on the Roche LightCycler in SYBR Green and Hybridization probe formats. Spiking the virus-negative samples of each matrix with a dilution series of poliovirus 3 created post flocculation spikes. / ABSTRACT: This post-flocculation dilution series amplification allowed a standard curve to be created unique to each food matrix. The flocculation and concentrations specimens were then amplified and the standard curves from the post-flocculation seed were used to calculate the loss associated with the concentration procedure. This study reports significant differences (p[0.05) in recovery detected between the various matrices, and Real Time RT-PCR formats. The concentration protocol under development at the Florida Department of Health Bureau of Laboratories, Tampa, demonstrates a 12-78% recovery of seeded virus in a simulated "real world" virus contamination event among the various matrices. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web. Polymerase chain reaction. Enteroviruses. Enterovirus. Hepatovirus. Norwalk-like viruses. amplification. hav. norovirus. enterovirus. produce.
137	The application of aptamer microarraying techniques to the detection of HIV-1 reverse transcriptase and its mutant variants Syrett, Heather Angel 09 November 2010 (has links) The work described here details the experimental progress toward an improved means of HIV-1 diagnosis and an explanation of the experimental approaches taken to advance a previously developed HIV-1 reverse transcriptase detection assay using RNA aptamers for protein capture. After characterization of the identity and function of the aptamer samples to be used, we first set about clarifying the nature of the assay and pinning down sources of variability inherent in the original Aptamer Antibody Sandwich Assay (AASA) such that through the course of this work we might bring the assay to a point of high reproducibility. In doing so, we devised a set of criteria for data analysis and filtration and established a process to examine whether modifications to the method resulted in measurable improvement. Two new methods were tested in the hope that they might later be extended to our ultimate project goal of distinguishing binding affinity variations among HIV-1 reverse transcriptase protein and its mutant variants. Both method modifications involved the addition of a fluorescently labeled Cy5 probe to the immobilized aptamer construct. The addition of a fluorescent label to each printed aptamer allowed for detection of aptamer presence in addition to protein binding, essentially serving as a simple internal control for aptamer-protein binding. After optimizing the AASA aptamer construct and experimental procedure, the AASA was extended to a multiplexed array format. Using four groups of aptamers selected against two HIV-1 RT variants (wild-type and mutant 3) we tested the hypothesis that immobilized anti-HIV-1 aptamers might be capable of binding HIV-1 RT variants and regardless of their selective target. The experiments described here are the first example of these aptamers being used in a multiplexed array format, and the results are not only a clear exemplification of the capacity of RNA aptamers for detection in this novel, immobilized assay format, but also an indicator of the utility and flexibility of RNA aptamer functionality. The promising results described in these preliminary studies are the starting block from which several interesting aptamer-protein interaction and drug-competition studies have begun. / text Aptamer RNA HIV-1 HIV HIV-1 diagnosis Microarray Reverse transcriptase High-throughput assay HIV screening Intermolecular interaction RNA aptamers AASA array method
138	Multimarker Gene Analysis of Circulating Tumor Cells in Pancreatic Cancer Patients: A Feasibility Study de Albuquerque, Andreia, Kubisch, Ilja, Breier, Georg, Stamminger, Gudrun, Fersis, Nikos, Eichler, Astrid, Kaul, Sepp, Stölzel, Ulrich 12 February 2014 (has links) (PDF) Objective: The aim of this study was to develop an immunomagnetic/real-time reverse transcriptase polymerase chain reaction (RT-PCR) assay and assess its clinical value for the molecular detection of circulating tumor cells (CTCs) in peripheral blood of pancreatic cancer patients. Methods: The presence of CTCs was evaluated in 34 pancreatic cancer patients before systemic therapy and in 40 healthy controls, through immunomagnetic enrichment, using the antibodies BM7 and VU1D9 [targeting mucin 1 and epithelial cell adhesion molecule (EpCAM), respectively], followed by real-time RT-PCR analysis of the genes KRT19, MUC1, EPCAM, CEACAM5 and BIRC5. Results: The developed assay showed high specificity, as none of the healthy controls were found to be positive for the multimarker gene panel. CTCs were detected in 47.1% of the pancreatic cancer patients before the beginning of systemic treatment. Shorter median progression-free survival (PFS) was observed for patients who had at least one detectable tumor-associated transcript, compared with patients who were CTC negative. Median PFS time was 66.0 days [95% confidence interval (CI) 44.8–87.2] for patients with baseline CTC positivity and 138.0 days (95% CI 124.1–151.9) for CTC-negative patients (p = 0.01, log-rank test). Conclusion: Our results suggest that in addition to the current prognostic methods, CTC analysis represents a potential complementary tool for prediction of outcome in pancreatic cancer patients. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. zirkulierende Tumorzellen Bauchspeicheldrüsenkrebs Circulating tumor cells CTC Pancreatic cancer RT-PCR ddc:610 rvk:XA 10000
139	Silicon and acibenzolar-S-methyl induced defence responses in cotton (Gossypium hirsutum L.) infected with Fusarium oxysporum f. sp. vasinfectum Jennifer Whan Unknown Date (has links) In previous studies silicon has been associated with reduced disease severity and incidence, the enhanced accumulation of phenolic compounds and lignin, and with changes in the defence-related enzyme activity and transcript abundance of defence and stress related genes. All of these aspects of plant defence were considered in this study on cotton infected with Fusarium oxysporum f. sp. vasinfectum (Fov), and the results obtained have greatly enhanced our understanding of the effects of silicon on this interaction. In all experiments conducted, defence responses were only significantly enhanced by silicon treatment following inoculation with Fov, strongly suggesting that silicon can prime defence responses in cotton infected with Fov. Sicot F-1 was the cultivar most resistant to Fov infection at the commencement of this research, whilst Sicot 189 was considered to have moderate resistance to the pathogen. Vascular discolouration was significantly reduced in the more resistant cultivar, Sicot F-1 following treatment with potassium silicate, compared to mock inoculated plants and inoculated plants treated with potassium sulphate or calcium sulphate. No significant differences between treatments were observed in the moderately resistant cultivar, Sicot 189, though further trials may need to be conducted to confirm this result. In both cultivars, silicon content was significantly greater in plants which had been treated regularly with liquid potassium silicate, rather than with calcium silicate powder. Histological investigation of cotton infected with Fov, with and without silicon treatment, was conducted to ascertain the effects of this element on the accumulation of fungitoxic phenolic compounds, cell ultrastructural changes and fungal infection structures. Fov proliferated through the cortex and stele of plants from both the resistant (Sicot F-1), and moderately resistant (Sicot 189) cultivars, regardless of silicon treatment. However, defences were more rapidly and intensely induced in endodermal and vascular regions of inoculated, potassium silicate treated Sicot F-1 plants. Significantly more phenolic compounds were present at seven days post infection (dpi) in root extracts of inoculated, potassium silicate treated Sicot F-1 plants. Phenolic compounds were not significantly increased in inoculated, potassium silicate treated root extracts of Sicot 189 plants at three or seven dpi. Lignin assays demonstrated that the dry weight percentage of lignin in root material from inoculated, potassium silicate treated Sicot F-1 plants was significantly higher than that of extracts from inoculated plants not receiving silicon treatment at three dpi. This trend was also observed at seven dpi; however lignin content was not significantly different in this case. Percentage lignin content in the roots of Sicot 189 plants was not significantly different between inoculated potassium silicate treated plants and those not treated with silicon. Histological alterations were not observed in mock inoculated water or potassium silicate treated plants, nor were any significant increases in phenolic compounds or lignin accumulation detected in control treatments not inoculated with the pathogen. The expression of several defence related genes was assessed with quantitative reverse transcriptase real-time polymerase chain reaction. The results obtained verify that potassium silicate can enhance defence responses in Sicot 189 and Sicot F-1 plants inoculated with Fov, with silicon having a more pronounced effect on the more resistant cultivar, Sicot F-1. Genes upregulated at three and four dpi in potassium silicate treated, Fov inoculated Sicot F-1 plants included peroxidase, cadinene synthase and polygalacturonase inhibiting protein (PGIP), with peroxidase associated with phenol oxidation and lignification and cadinene synthase with phytoalexin biosynthesis. Osmotin-like protein and chitinase class I were consistently upregulated in potassium silicate treated, inoculated Sicot 189 plants; both genes coding for pathogenesis related (PR) proteins, with chitinase also classified as an antifungal protein. In both cultivars, silicon treatment without Fov inoculation did not result in the significant up-regulation of any of the defence genes assessed, providing further evidence for the role of silicon in priming in this interaction. The activities of three defence related enzymes, peroxidase, chitinase and β-1, 3- glucanase was assessed in root and shoot material by colourimetric assays. Regular application of potassium silicate significantly increased the activity of peroxidase in root extracts from the highly resistant cultivar Sicot F-1, at three, four and seven dpi with Fov, and in root extracts from the moderately resistant Sicot 189 at three and four dpi. Significant increases in chitinase activity in inoculated, silicon treated Sicot 189 plants were observed in root extracts at three dpi, and in shoot extracts at four dpi. Soluble potassium silicate treatment resulted in significant increases in β-1, 3- glucanase activity in Sicot 189 root extracts at four dpi. Few significant differences between treatments in terms of chitinase and β-1, 3- glucanase activity were detected in Sicot F-1 plants, though higher levels of each of these enzymes were present in root and shoot extracts from this cultivar. In this study the effects of acibenzolar-S-methyl, applied in the form of Bion®, on defence gene expression and enzyme activity in cotton infected with Fov were more pronounced in plants cultivated from treated seed, rather than in plants treated via foliar spray; a finding which is particularly relevant to the industry presently. Significant up-regulation of chitinase class I, peroxidase, and β-1, 3-glucanase transcripts and enzyme activities occurred in the Bion® seed soak treatment with Fov inoculation compared to all other treatments. It was possible to compare the actions of silicon with those of Bion® in this study. Bion® primed defence responses in cotton infected with Fov, in a manner similar to that observed in silicon treated cotton. The use of silicon and Bion® treatments, both alone and in combination as part of integrated disease management programmes, may potentially contribute to increased protection against this pathogen in Australian cotton fields in the future. Cotton Silicon Fusarium oxysporum f. sp. vasinfectum Defence responses Vascular discolouration Transmission electron microscopy Phenolics Lignin
140	Standardization and application of quantitative PCR methods in patients with hematological malignancies / Malec, Maria, January 2004 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 5 uppsatser.

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