Global ETD Search

91	Découverte d'un nouvel élément mobile dans le virus de l'herpes simplex de type 1. Huot, Nicolas 17 December 2012 (has links) (PDF) Le virus de l'herpès simplex de type 1 (HSV1) établit une infection latente dans le système nerveux de l'homme, au cours de laquelle un type de transcrits, appelés LATs (pour latency associated transcripts), s'accumule dans les neurones infectés. Le rôle clef des LATs dans le contrôle de la latence virale est reconnu. Cependant, depuis leur découverte dans les années 80, leur mécanisme d'action reste non élucidé.Le gène des LATs est transcrit en un LAT primaire de 8,3kb, qui est épissé, conduisant à la formation de deux LATs stables : le LAT2kb et le LAT1.5kb. De façon remarquable, le LAT2kb et le LAT1.5kb sont des introns. Leur stabilité est la conséquence d'un branchement non canonique qui se traduit par le maintien de la structure en lariat. Par ailleurs, la région du génome codant les LATs contient également le gène RL2 qui code ICP0, la protéine la plus en amont dans la cascade de réactivation du virus. Des études précédentes ont montré qu'au moment de la latence, des transcrits RL2 non épissés, s'accumulent au site principal de la latence (le ganglion de Gasser).Nous avons caractérisé ces transcrits non épissés du gène RL2 dans les tissus infectés de façon latente. Ils contiennent de façon reproductible l'intron 1 et sont d'autant plus abondants dans les tissus infectés de façon latente que les LAT s'accumulent. On peut ainsi distinguer plusieurs types de tissus infectés de façon latente, dont les deux exemples les plus représentatifs sont d'une part le ganglion de Gasser (forte expression des LAT et accumulation de transcrits RL2 non-épissés) et d'autre part le ganglion cervical supérieur (pas d'accumulation de LAT par rapport aux quantités exprimées pendant la phase aiguë de l'infection, et très peu d'expression dans transcrits non-épissés). Dans tous les cas, la réalité du caractère latent de l'infection était confirmé par la présence de génome viral sans expression de transcrits matures de gène viral précoce (représenté par celui de la thymidine kinase) ni tardif (gène UL18). Ces résultats suggèrent une relation entre la présence des LAT et l'accumulation de transcrits RL2 non-épissés, ce qui pourrait être en relation avec le maintien de l'infection à l'état latent dans ces tissus. HSV-1 Latence Réactivation LAT RL2
92	Escaping RGBland: Selecting Colors for Statistical Graphics Zeileis, Achim, Hornik, Kurt, Murrell, Paul January 2007 (has links) (PDF) Statistical graphics are often augmented by the use of color coding information contained in some variable. When this involves the shading of areas (and not only points or lines) - e.g., as in bar plots, pie charts, mosaic displays or heatmaps - it is important that the colors are perceptually based and do not introduce optical illusions or systematic bias. Here, we discuss how the perceptually-based Hue-Chroma-Luminance (HCL) color space can be used for deriving suitable color palettes for coding categorical data (qualitative palettes) and numerical variables (sequential and diverging palettes). / Series: Research Report Series / Department of Statistics and Mathematics
93	DISCOVERY OF LIGNIN SULFATE AS A POTENT INHIBITOR OF HSV ENTRY INTO CELLS Thakkar, Jay N 01 January 2006 (has links) The herpes virus family consists of more than hundred members that infect organisms, of which eight, differing markedly in the biology are known to infect humans. HSV- I is the most common one, causing oral lesions and sporadic encephalitis. These infections are highly prevalent affecting at least one in three individuals in the United States.The entry of the herpes virus into the cell is a two-step process. The initial step involves the cell surface heparan sulfate and glycoproteins in the viral envelope which enables the virus to penetrate into the cell. The second step is the fusion step. Depending on the nature of interaction and size of HS chain, a single chain may bind multiple viral ligands on a virion. There is substantial evidence showing that HS plays an important role in viral binding.HS is a heterogeneous, linear sulfated oligosaccharide composed of alternating glucosamine and uronic acid residues, which could specify distinct receptor for various viral ligands. HS, present on most exposed cell surfaces, make an ideal snare for the capture of most herpes viruses and may facilitate subsequent interactions with other co-receptors required for entry. Number of viruses, including HSV- I, HSV- II, HIV- I and dengue virus use sites of HS as receptors for binding to cells. Recently 2000 Liu et.al have characterized a HS based octasaccharide that binds to HSV-I gD. The distinguished feature in the composition of the octasaccharide is the presence of 3-O-sulfate glucosamine residue, which is an uncommon structural modification in HS. Its presence in the HSV-I gD binding sequence may confer specificity of interaction and assist HSV-I entry into the cell.Numerous sulfated molecules have been explored as mimics of HS in the inhibition of HSV-1 entry into cells. To date, most of the sulfated molecules screened for anti-viral activity have been carbohydrates. So, we reasoned that it should be possible to mimic critical interactions of HS with one or more viral glycoprotein using synthetic, non-polysaccharide, sulfated compounds. Further, it may be possible to mimic specific sequence(s) in HS, which play a role in HSV infection, with small synthetic, sulfated, non-carbohydrate molecules. In a search for synthetic mimics of HS as inhibitors of HSV-I infection, we screened a small, synthetic, sulfated flavonoids to discover a potent inhibitory activity arising from sulfation of a macromolecule present as an impurity in a crude natural product.The active principle was identified through an array of biophysical and chemical analyses as lignin sulfate, a heterogeneous; polydisperse network polymer composed of substituted phenylpropanoid monomers. Further, LC-MS with APCI in negative ionization mode, which have been reported in here for the first time for analysis of lignin, has been successfully used to deduce oligomeric structures present in the precursor of the active macromolecule based on the spectrum of the depolymerized lignin. This corroborates well with the structural information obtained using other analytical techniques. We hypothesize that the structural heterogeneity and polydispersity of lignin coupled with optimal combination of sulfate charge and hydrophobicity result in high potency. Given that the native lignin is inactive, lignin sulfate discovered here provides a variety of organic scaffolds that with the critical sulfate groups in space can mimic the HSV-I gD binding sequence. Ligni herpes simplex virus (HSV) heparan sulfate Chemicals and Drugs Medicine and Health Sciences
94	Étude des fonctions anti-apoptotique et de chaperon moléculaire de la sous-unité R1 de la ribonucléotide réductase du virus de l'herpès simplex de type-2 Chabaud, Stéphane January 2004 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Virus de l'herpès simplex HSV R1 Ribonucléotide réductase Apoptose TNF Chaperon moléculaire
95	Étude de la signalisation virale de l'induction du gène de l'IL-15 dans les cellules monocytaires THP-1 Ennaciri, Jamila January 2006 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. VRS HSV-1 IL-15 Monocytes PKC PTK TLR3 TRIF TRAF6 NF-kB Signalisation
96	Residual-based shadings for visualizing (conditional) independence Zeileis, Achim, Meyer, David, Hornik, Kurt January 2005 (has links) (PDF) Residual-based shadings for enhancing mosaic and association plots to visualize independence models for contingency tables are extended in two directions: (a) perceptually uniform HCL colors are used and (b) the result of an associated significance test is coded by the appearance of color in the visualization. For obtaining (a), a general strategy for deriving diverging palettes in the perceptually-based HCL space is suggested. As for (b), cut offs that control the appearance of color are computed in a data-driven way based on the conditional permutation distribution of maximum-type test statistics. The shadings are first established for the case of independence in 2-way tables and then extended to more general independence models for multi-way tables, including in particular conditional independence problems. / Series: Research Report Series / Department of Statistics and Mathematics
97	Choosing Color Palettes for Statistical Graphics Zeileis, Achim, Hornik, Kurt January 2006 (has links) (PDF) Statistical graphics are often augmented by the use of color coding information contained in some variable. When this involves the shading of areas (and not only points or lines) - e.g., as in bar plots, pie charts, mosaic displays or heatmaps - it is important that the colors are perceptually based and do not introduce optical illusions or systematic bias. Here, we discuss how the perceptually-based Hue-Chroma-Luminance (HCL) color space can be used for deriving suitable color palettes for coding categorical data (qualitative palettes) and numerical variables (sequential and diverging palettes). / Series: Research Report Series / Department of Statistics and Mathematics
98	Pro- and antiapoptotic events in Herpes simplex virus type 1 (HSV-1) infection of immature dendritic cells Kather, Angela 13 February 2012 (has links) Herpes simplex virus Typ 1 (HSV-1) ist ein humanpathogenes Virus der Familie Herpesviridae. Für eine erfolgreiche Virusreplikation besitzt HSV-1 mehrere Gene, die in den meisten infizierten Zelltypen Apoptose verhindern. Im Gegensatz dazu führt die HSV-1 Infektion eines zentralen Zelltyps des Immunsystems, den unreifen dendritischen Zellen (iDCs), zu Apoptose. Dies könnte ein Aspekt der HSV-1 Immunevasion sein. Bisher waren die Ursachen der Apoptose von HSV-1 infizierten iDCs unzureichend aufgeklärt. Es wurde jedoch gezeigt, dass das antiapoptotische zelluläre Protein c-FLIP in HSV-1 infizierten iDCs reduziert ist. In dieser Arbeit wurde die c-FLIP Menge in iDCs erstmalig mit Hilfe von RNA Interferenz erfolgreich reduziert. Dies bestätigte die Bedeutung von c-FLIP für die Lebensfähigkeit von iDCs. Folglich könnte auch die Reduktion der c-FLIP Menge nach HSV-1 Infektion iDCs für Apoptose empfindlich machen. Die HSV-1 induzierte c-FLIP Reduktion erfolgte in späten Stadien der Infektion, abhängig von der ordnungsgemäßen Expression viraler „early“ und „leaky late“ Gene. Sie fand nicht auf RNA Ebene statt und war unabhängig vom Proteasom und der Bindung an den „death inducing signaling complex“. Stattdessen wurde c-FLIP wahrscheinlich von einer viralen oder zellulären Protease abgebaut. In dieser Arbeit wurde erstmals gezeigt, dass zusätzlich zu Veränderungen im zellulären Apoptosesignalnetzwerk der Mangel an einem antiapoptotischen viralen Faktor zur Apoptose von HSV-1 infizierten iDCs beiträgt. Eine Microarray Analyse der HSV-1 Genexpression ergab, dass HSV-1 Latenz-assoziierte Transkripte (LATs) in apoptotischen iDCs signifikant geringer exprimiert waren als in nicht-apoptotischen epithelialen Zellen. LATs besitzen in Neuronen und epithelialen Zellen eine antiapoptotische Aktivität. Diese könnte den Mangel an c-FLIP kompensieren. Übereinstimmend mit dieser Hypothese induzierte eine HSV-1 LAT-Deletionsmutante mehr Apoptose in iDCs im Vergleich zum Wildtyp-Virus. / Herpes simplex virus type 1 (HSV-1) is a human pathogen which belongs to the family Herpesviridae. HSV-1 encodes several genes, which serve to efficiently prevent apoptosis in most infected cell types, thereby ensuring successful virus replication. In contrast, HSV-1 infection of one central cell type of the immune system, immature dendritic cells (iDCs), results in apoptosis. This could be one aspect of HSV-1 immunevasion. So far, the mechanisms underlying apoptosis of HSV-1 infected iDCs were poorly defined. However, it has been shown that the antiapoptotic cellular protein c-FLIP is reduced in HSV-1 infected iDCs. In this work, the amount of c-FLIP was for the first time successfully reduced in iDCs by RNA interference. This confirmed the importance of c-FLIP for viability of iDCs. Therefore, it is likely that c-FLIP reduction after HSV-1 infection also sensitizes iDCs to apoptosis. HSV-1 induced c-FLIP reduction occurred at late stages of infection and was dependent on proper expression of early and leaky late virus genes. Furthermore, it was not operative at the RNA level and was independent from the proteasome and binding to the death inducing signaling complex. Rather, c-FLIP was presumably degraded by a viral or cellular protease. In this work it was shown for the first time, that in addition to changes in the cellular apoptosis signaling network, the lack of one antiapoptotic viral factor contributes to apoptosis of HSV-1 infected iDCs. HSV-1 latency-associated transcripts (LATs) were significantly lower expressed in apoptotic iDCs compared to non-apoptotic epithelial cells, determined by microarray analysis of HSV-1 gene expression. It is known that in neurons and epithelial cells, LATs possess a potent antiapoptotic activity. This could compensate the lack of c-FLIP. Consistent with this hypothesis, a LAT deletion mutant of HSV-1 induced more apoptosis in iDCs compared to the respective wild type virus. Apoptose Immunevasion c-FLIP Herpes simplex Virus Typ 1 (HSV-1) unreife dendritische Zellen (iDC) Latenz-assoziierte Transkripte (LATs) HSV-1 Microarray apoptosis c-FLIP Herpes simplex virus type 1 (HSV-1) immature dendritic cells (iDC) immunevasion latency-associated transcripts (LATs) HSV-1 microarray 570 Biowissenschaften, Biologie 32 Biologie XD 7400 ddc:570
99	Herpes Virus Infections, Inflammatory Markers and Risk of Developing T2DM and CVD: An Analysis of NHANES with Adults, Aged 20-49, 1999-2010 Irizarry-De La Cruz, Margarita 01 January 2015 (has links) Herpes simplex viruses (HSVs), are among the most virulent and widespread pathogens; they affect 60-90% of the population worldwide. Substantial evidence indicates a possible association between pathogens and chronic disease. HSVs, among other viruses, have been associated with increased risk for inflammatory diseases. However, prior findings have been inconsistent on the role of infection in triggering autoimmune response and chronic disease. This study builds on the premise that pathogens can induce an inflammatory response and increase the risk for disease development. A representative U.S. sample from NHANES, a national population-based cross-sectional survey, was used to examine the relationship between HSVs infection and type 2 diabetes mellitus (T2DM) and cardiovascular disease (CVD). Results from the two-tailed, Pearson chi-square test and multiple logistic regression analyses found no significant association between HSV or multiple herpes virus infections and T2DM or CVD, which suggest rather a secondary phenomenon. However, all the risk factors examined in this study indicated an association with either T2DM, CVD or both. Two inflammatory markers, C-reactive protein (CRP) and serum ferritin, were significantly associated with T2DM and CVD. These findings have potential implications for social change as they support the premise that high levels of CRP and ferritin may be associated with T2DM and CVD. Existing guidelines for primary and secondary prevention of T2DM and CVD could be expanded (a) to include CRP and ferritin as part of the health assessment for T2DM and CVD in high-risk populations, and (b) to explore the effectiveness of CRP and ferritin as predictive biomarkers and prognostic tools for T2DM and CVD. chronic diseases CVD HSV Infectious diseases inflammatory markers T2DM Epidemiology Public Health Education and Promotion Virology
100	Uncovering novel genetic etiologies of childhood herpes simplex encephalitis : hypothesis-based candidate gene approach Herman, Melina 06 December 2012 (has links) (PDF) L'encéphalite herpétique (EH), causée par l'herpès simplex virus-1 (HSV-1), peut résulter de défauts monogéniques de l'immunité médiée par TLR3. L'induction d'interférons (IFNs)-α/β ou -λ via TLR3 est cruciale à la protection après infection primaire avec HSV-1 dans le système nerveux central (SNC). Nous décrivons deux enfants avec l'EH portant différentes mutations hétérozygotes (D50A et G159A) dans TBK1, encodant TANK-Binding Kinase 1, une kinase aux carrefours de multiples voies de signalisation induisant des IFNs. Les deux allèles mutants de TBK1 sont perte-de-fonction par des mécanismes différents: instabilité de la protéine (D50A) ou perte d'activité kinase (G159A). Ces allèles sont associés à un trait autosomal dominant (AD) par des mécanismes différents: haplotype-insuffisance (D50A) ou dominance négative (G159A). Un défaut de réponses à poly(I:C) par TLR3 est observable dans les fibroblastes hétérozygotes pour G159A, et non pour D50A TBK1. Néanmoins, la réplication virale et la mortalité cellulaire après infection par deux virus dépendants de TLR3 (HSV-1 et VSV) étaient élevées dans les fibroblastes des deux patients. Ces phénotypes peuvent être sauvés par IFN-α2b. De plus, la production d'IFNs en réponse à des agonistes et virus indépendants de TLR3 est maintenue dans les PBMCs et fibroblastes des patients. Le phénotype cellulaire restreint, partiel représente ainsi le phénotype clinique de ces patients, limité à l'EH. Ces données identifient la déficience partielle AD de TBK1 comme une nouvelle étiologie génétique de l'EH de l'enfance, et indiquent que TBK1 est essentiel pour le contrôle de HSV-1 dans le SNC, médié par TLR3 et dépendant des IFNs [SDV:GEN] Life Sciences/Genetics Immunity TLR3 TBK1 Herpes Simplex Encephalitis Interferon HSV-1

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