Global ETD Search

11	Décrypter les bases moléculaires de la sélection de substrat par la protéine NS3 du Virus du Nil occidental Despins, Simon January 2009 (has links) Les hélicases sont des enzymes extrêmement répandues qui sont essentielles pour mener à bien l'ensemble des processus cellulaires impliquant des acides nucléiques. Ces protéines parviennent à annihiler les structures secondaires et tertiaires qui peuvent se former dans l'ADN ou l'ARN grâce à l'énergie puisée par l'hydrolyse de l'ATP. Les hélicases ne sont toutefois pas l'exclusivité des organismes eucaryotes et procaryotes, mais bon nombre de virus codent aussi pour des enzymes possédant cette fonction. La famille des Flaviviridae ne fait pas exception à ce groupe puisque l'ensemble des virus de cette famille code pour une hélicase nommée NS3. La famille des Flaviviridae est une famille virale d'une importance monumentale étant donné la présence de nombreux pathogènes humains parmi ses rangs. On y dénote le virus de l'hépatite C, le virus de la dengue et le virus du Nil occidental pour ne nommer que ceux-là. Ces virus ont aussi un autre point en commun, le manque criant d'une thérapie efficace pour traiter les patients atteints. La protéine NS3 et plus particulièrement son activité hélicase est une cible potentielle envisageable pour le traitement de ces virus étant donné l'aspect essentiel de cette activité dans le cycle de réplication de ceux-ci. L'étude présentée dans ce mémoire a pour dessein d'étudier le site d'hydrolyse de l'ATP de la protéine NS3 du virus du Nil occidental. Le but final est de découvrir les déterminants moléculaires qui mènent à la sélection du substrat à hydrolyser, tant au niveau du substrat qu'au niveau de la protéine. Du côté du substrat, une panoplie d'analogues de purines fut testée pour déterminer la capacité de ces molécules à compétitionner pour le site actif de la protéine ainsi que pour la faculté de la protéine à hydrolyser ces substrats. Du côté de la protéine, une gamme de mutants de NS3 fut exprimée et l'habileté de ces mutants à discriminer entre les différents substrats qui lui étaient présentés a été mesurée. Les acides aminés qui ont été sélectionnés pour être mutés l'ont été soit pour leur ressemblance à un motif de reconnaissance de l'ATP chez d'autres hélicases, soit pour leur proximité du substrat, déterminée grâce à un modèle de la protéine bâti sur la structure cristallisée de la protéine NS3 du virus de la dengue. L'ensemble des résultats obtenus a permis de dresser le portrait des atomes de l'ATP qui sont liés par la protéine en plus de mettre à jour plusieurs acides aminés qui sont impliqués directement ou indirectement dans la sélection du substrat par NS3. Il semble en effet que la présence d'un groupement donneur de liaison hydrogène soit nécessaire à la position six d'une purine pour permettre un bon niveau d'hydrolyse de la molécule, permettant ainsi à la protéine de faire la distinction entre l'ATP et le GTP. Aussi, l'apport insoupçonné dans le processus d'hydrolyse d'acides aminés tels que Arg202, Ans417 ou encore Arg185 a été démontré. Finalement, différentes expériences permettant d'élargir les connaissances sur la protéine NS3 ainsi que sur les hélicases en général sont proposées. Des recherches visant à déterminer les ressemblances et les différences au niveau de la discrimination entre sources d'énergie à utiliser entre les diverses protéines NS3 des Flaviviridae vont permettre d'amener à un autre niveau la compréhension du mécanisme d'hydrolyse de cette protéine. Des études s'appliquant à modifier différents acides aminés afin de façonner la protéine NS3 pour qu'elle hydrolyse des analogues particuliers ou qu'elle lie des acides nucléiques précis pourraient aussi permettre de mieux comprendre les bases de la reconnaissance des substrats de NS3 en plus de fournir éventuellement des outils moléculaires voués à des fonctions multiples. Spécificité de substrat Analogues de nucléotides Flavivirus Hélicase/ATPase NS3
12	Novel Procedures for Identification and Characterization of Viral Proteases Inhibitors Ehrenberg, Angelica January 2014 (has links) Viral proteases are often considered to be attractive drug targets because of their crucial function in the viral replication machinery. In order to increase our knowledge of these important targets and to contribute to the discovery and development of new antiviral drugs, the proteases from hepatitis C virus (HCV) and human cytomegalovirus (HCMV) have been produced and their interactions with inhibitors and fragments have been characterized, using enzyme inhibition and SPR biosensor based interaction assay. The structure activity relationships and the resistance profiles of a series of HCV NS3 protease inhibitors based on either P2 proline or phenylglycine residues were analyzed using wild type genotype 1a and the major resistant variants A156T and D168V. The observed susceptibility to substitutions associated with these resistance variants was concluded to depend on the P2 and the P1 residue, and not only on the P2 residue as previously had been suggested. In order to be able to evaluate how the potency of inhibitors is affected by genetic variation, their effect was evaluated on wild type NS3 from genotype 1a, 1b and 3a as well as on the resistant variant R155K from genotype 1a. To enable a comparison of the inhibitory effect on the enzyme variants, the compounds were analyzed under conditions optimized for each variant. VX-950 was found to be the least susceptible compound to resistance and genetic variation. A more detailed analysis showed that the kinetic and mechanistic features of the inhibitors were significantly different for the different genotypes. The reversible non covalent macrocyclic inhibitor ITMN 191 was revealed to have favorable kinetics for all three genotypes. This is an advantage for the design of broad spectrum drugs. A fragment based procedure for identifying and validating novel scaffolds for inhibitors of HCMV protease was established. It identified fragments that may serve as starting points for the discovery of effective inhibitors against this challenging target. The procedures developed for the evaluation and identification of novel HCV NS3 and HCMV protease inhibitors have contributed to a deeper understanding of protease-inhibitor interactions that is expected to have an impact on the design of novel antiviral drugs. drug discovery viral proteases inhibitors Hepatitis C NS3 cytomegalovirus
13	Design and synthesis of Hepatitis C Virus NS3 protease inhibitors / Johansson, Anja, January 2003 (has links) Diss. (sammanfattning) Uppsala : Univ., 2003. / Härtill 4 uppsatser.
14	Caracterização da estrutura da serino-protease NS3 em pacientes infectados com o vírus da hepatite C do genótipo 3 Provazzi, Paola Jocelan Scarin [UNESP] 15 September 2008 (has links) (PDF) Made available in DSpace on 2014-06-11T19:32:14Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-09-15Bitstream added on 2014-06-13T21:03:48Z : No. of bitstreams: 1 provazzi_pjs_dr_sjrp.pdf: 1081709 bytes, checksum: 9a35b9ad50fc4eed266a481d830f02de (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / A proteína NS3 apresenta dois domínios e é bifuncional. Apresenta três funções enzimáticas que são; 1) atividade de protease; 2) NTPase e 3) helicase. A função protease relaciona-se a tradução da proteína precursora e as funções NTPase e helicase tem grande participação na replicação do material genético viral. Trata-se de uma molécula essencial para o processamento da poliproteína precursora e também para a replicação viral e portanto, um dos principais alvos para o desenvolvimento de drogas antivirais. No domínio Protease foram evidenciadas substituições na tríade catalítica e na região de ligação ao íon zinco nos pacientes avaliados. Estas substituições, quando somadas podem explicar a resposta ao tratamento. Também foram visualizadas alterações na porção Helicase da NS3. As substituições ocorreram nos sítios de ligação ao ATP e ao RNA. Outros resíduos da Helicase relevantes para o desenvolvimento de inibidores, como R2133 e F258 e F264 não apresentaram substituições, evidenciando tratarem-se de aminoácidos conservados nessa região. Os resultados obtidos nesse trabalho fornecem informações sobre o perfil genético do vírus HCV do genótipo 3 especificamente da região codificadora da proteína NS3, permitindo o conhecimento do genoma viral e a identificação de regiões para ligação de possíveis inibidores. Este projeto certifica que a modelagem é uma ferramenta útil para a biologia estrutural e funcional, e que os modelos obtidos aqui contribuem para o desenho de novas drogas anti-virais específicas para o genótipo 3 do vírus HCV / The NS3 protein has two domains and is bifuntional. It presents three functions: 1) protease activity, 2) NTPase and 3) helicase. The protease function is related to the translation of the poliprotein precursor and functions NTPase and helicase has great participation in the replication of the viral genetic material. So. The NS3 is considered the major target for the development of antiviral drugs. In the Protease portion substitutions were evidenced in catalytic triad and the zinc ion binding sites, in the patients evaluated. These substitutions, when added up can explain the response to treatment. Also were observed changes in Helicase portion of NS3. The substitutions took place on ATP and RNA binding sites. Other residues of Helicase relevant to the development of inhibitors, as R2133 and F258 and F264, showed no substitutions, highlighting the great conservation of amino acids in this region. The results obtained in this work provide information on the genetic profile of the HCV virus genotype 3, specifically the region of NS3 protein, allowing the knowledge of the viral genome and the identification of regions for possible connection of inhibitors. This project certifies that the modeling is a useful tool for structural biology and functional, and that the models obtained here contribute to the design of new anti-viral drugs specific to the genotype 3 of HCV virus Genética Hepatite C - Aspectos genéticos Hepatite por virus Serina proteinases Genética viral Proteína não-estrutural Vírus da hepatite C (HCV) DNA - Modelagem comparativa Serino-protease NS3 HCV Helicase NS3 HCV Hepatitis C virus Protease NS3 HCV Helicase NS3 HCV
15	In-depth characterization of the NS3:NS5 interaction within the West Nile virus replicase complex during positive strand RNA synthesis / Caractérisation détaillée de l’interaction entre NS3 et NS5 dans le complexe de réplication du virus du Nil occidental pendant la synthèse d’ARN de polarité positive Brand, Carolin January 2017 (has links) Les Flavivirus transmis par les moustiques comme le virus du Nil occidental, le virus de la dengue, le virus de la fièvre jaune, le virus de l’encéphalite japonaise et le virus Zika constituent des préoccupations croissantes de santé publique. Ils se sont répandus dans le monde au cours des dernières décennies, et les épidémies sont devenues plus fréquentes et plus sévères. Chaque année, des millions de personnes sont infectées et environ 50 000 patients décèdent d’infections à Flavivirus. Malgré les nombreux efforts de recherche, il n’y a actuellement aucun médicament antiviral spécifique disponible, et des nouvelles stratégies antivirales sont indispensables. Comprendre comment les Flavivirus fonctionnent au niveau moléculaire aidera à découvrir des nouvelles cibles pour l'intervention thérapeutique. Les Flavivirus ont un génome d'ARN simple brin de polarité positive qui code pour trois protéines structurales et huit protéines non structurales. Seules deux des huit protéines non structurales ont des activités enzymatiques. NS3 possède un domaine protéase et un domaine hélicase, et NS5 a un domaine méthyl- et guanylyltransférase et un domaine ARN polymérase ARN-dépendante. Ensemble, ils répliquent le génome viral. Ici, nous caractérisons l'interaction entre NS3 et NS5 dans le complexe de réplication du virus du Nil occidental pendant la synthèse d’ARN de polarité positive. Un modèle d'interaction comprenant NS3, NS5 et l’ARN viral a été développé basé sur des structures cristallines connues ainsi que des activités enzymatiques des deux protéines individuelles, et ce modèle a été soumis à des simulations de dynamique moléculaire. Les interactions potentielles entre les protéines NS3 et NS5 ont été identifiées. Les résidus impliqués dans ces interactions ont été mutés dans un réplicon du virus du Nil occidental et les effets de ces mutations sur la réplication virale ont été évalués. Une région particulière à la surface de la protéine NS3 a été identifiée comme étant cruciale pour la réplication virale, très probablement parce qu'elle interagit avec NS5. Cette région pourrait être une cible attrayante pour la recherche de composés qui pourraient interférer avec l'interaction entre NS3 et NS5 et donc posséder un potentiel antiviral intéressant. / Abstract : Mosquito-borne Flaviviruses like West Nile virus, Dengue virus, Yellow Fever virus, Japanese encephalitis virus, and Zika virus are increasing public health concerns. They have spread globally during the past decades, and outbreaks have recently become more frequent and more severe. Every year, millions of people are infected, and approximately 50,000 patients die from Flavivirus infections. Despite extensive research efforts, there are currently no specific antiviral drugs available, and new antiviral strategies are greatly needed. Understanding how Flaviviruses work on a molecular level will help in uncovering new points for therapeutic intervention. Flaviviruses have a single-stranded RNA genome of positive polarity that encodes three structural and eight non-structural proteins. Only two of the eight non-structural proteins have enzymatic activities. NS3 has an N-terminal protease domain and a C-terminal helicase domain, and NS5 has an N-terminal capping enzyme domain and a C-terminal RNA-dependent RNA polymerase domain. Together, they replicate the viral genome. Here we characterize the NS3:NS5 interaction within the West Nile virus RNA replicase complex during positive strand synthesis. An interaction model including NS3, NS5 and viral RNA was developed based on the known crystal structures as well as enzymatic activities of the two individual proteins, and this model was subjected to molecular dynamics simulations. Potential interactions between the NS3 and NS5 proteins were identified. Residues involved in these interactions were mutated in a West Nile virus replicon, and the effects of these mutations on viral replication were evaluated. One particular region on the surface of the NS3 protein was identified to be crucial for viral replication, most likely because it mediates the interaction with NS5. This region might be an attractive target for the search of compounds that could interfere with the NS3:NS5 interaction and therefore possess an interesting antiviral potential. Flavivirus Virus du Nil occidental Complexe de réplication Interaction entre NS3 et NS5 West Nile virus Replicase complex NS3:NS5 interaction
16	ANÁLISE DO GENOMA DE ISOLADOS CITOPÁTICOS DO VÍRUS DA DIARRÉIA VIRAL BOVINA (BVDV) PARA REARRANJOS GENÔMICOS ASSOCIADOS COM A EXPRESSÃO DA PROTEÍNA NS3. / ANALYSIS OF CYTOPATHIC ISOLATES OF BOVINE VIRAL DIARRHEA VIRUS (BVDV) FOR GENOMIC REARRANGEMENTS ASSOCIATED WITH EXPRESSION OF THE PROTEIN NS3. Quadros, Valter Leonardo de 08 August 2005 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / Calves born persistently infected (PI) with non-cytopathic bovine viral diarrhea virus (ncpBVDV) frequently develop a fatal gastroenteric illness called mucosal disease (MD). From animals affected by MD, both the original virus (ncpBVDV) and an antigenically identical, yet cytopathic virus (cpBVDV) can be isolated. Cytopathic BVDVs are originated from the ncp counterparts by diverse genetic mechanisms, all leading to the expression of the non-structural polypeptide NS3 as a discrete protein. In contrast, ncpBVDVs express only the large precursor polypeptide, NS2-3, which contains the NS3 sequence within its carboxy-terminal half. The investigation of the mechanism leading to NS3 expression in 41 cpBVDV isolates is reported. An RT-PCR strategy was designed to detect insertions within the NS2-3 gene and/or duplication of the NS3 gene two common mechanisms of expression of NS3. RT-PCR amplification revealed insertions in the NS2-3 gene of three cp isolates, being the inserts similar in size to that present in the cpBVDV NADL strain. Sequencing of one such insert revealed a 296 nucleotide sequence, with a central core of 270 putative aminoacid sequence highly homologous (98%) to the NADL insert, a sequence corresponding to the cellular J-Domain gene. Another cpBVDV isolate contained a duplication of the NS3 gene downstream from the original locus. In contrast, no detectable NS2-3 insertions nor NS3 gene duplications were observed in the genome of 37 cp isolates. These results demonstrate that cleavage of NS2-3 without bulk RNA insertions nor NS3 gene duplications seems to be a frequent mechanism leading to NS3 expression and BVDV cytopathology. / Bezerros nascidos persistentemente infectados (PI) com o biótipo não citopático (ncp) do vírus da Diarréia Viral Bovina (BVDV) freqüentemente desenvolvem uma doença gastroentérica fatal, chamada de Doença das Mucosas (DM). Dos animais afetados pela DM é possível isolar o vírus original não-citopático (BVDVncp) e um vírus antigenicamente idêntico, porém citopático (BVDVcp). Os BVDVcps são gerados a partir do vírus original ncp por diversos mecanismos genéticos, que resultam na expressão da proteína não-estrutural NS3 como uma proteína individual. Em contrapartida, os BVDVncp expressam somente a proteína precursora NS2-3, que contém a seqüência da NS3 no seu terço carboxi-terminal. Este trabalho relata a investigação dos mecanismos genéticos associados com a expressão da NS3 em 41 isolados citopáticos de BVDV. Uma estratégia de RT-PCR foi delineada para detectar inserções no gene da NS2-3 e/ou duplicações no gene da NS3, dois mecanismos freqüentes de expressão da NS3. Amplificação do genoma dos 41 isolados por RT-PCR revelou a presença de inserções no gene da NS2-3 em três isolados, de tamanho similar a inserção presente na cepa de BVDVcp NADL. O seqüenciamento da inserção de um isolado revelou uma seqüência de 296 nucleotídeos, com uma região central de 270 nucleotídeos altamente homóloga (98%) com a inserção da cepa NADL, que corresponde a uma seqüência do gene celular J-Domain. Outro isolado de BVDVcp contém uma duplicação do gene da NS3 na direção 3 da sua posição original. Em 37 isolados cp não foram detectadas inserções na NS2-3 ou duplicações da NS3. Esses resultados demonstram que a clivagem da NS2-3 sem a presença de inserções de RNA ou duplicações do gene da NS3 parecem ser mecanismos frequentes de expressão da proteína NS3 e citopatologia no BVDV. Vírus da diarréia viral bovina BVDV NS3 Citopatologia Bovine viral diarrhea virus BVDV NS3 Cytopathology
17	Análise de desempenho do protocolo TCP em Redes LTE. / Performance evaluation of TCP protocol in LTE Networks. Carlos Alberto Leite Bello Filho 26 February 2014 (has links) O crescimento dos serviços de banda-larga em redes de comunicações móveis tem provocado uma demanda por dados cada vez mais rápidos e de qualidade. A tecnologia de redes móveis chamada LTE (Long Term Evolution) ou quarta geração (4G) surgiu com o objetivo de atender esta demanda por acesso sem fio a serviços, como acesso à Internet, jogos online, VoIP e vídeo conferência. O LTE faz parte das especificações do 3GPP releases 8 e 9, operando numa rede totalmente IP, provendo taxas de transmissão superiores a 100 Mbps (DL), 50 Mbps (UL), baixa latência (10 ms) e compatibilidade com as versões anteriores de redes móveis, 2G (GSM/EDGE) e 3G (UMTS/HSPA). O protocolo TCP desenvolvido para operar em redes cabeadas, apresenta baixo desempenho sobre canais sem fio, como redes móveis celulares, devido principalmente às características de desvanecimento seletivo, sombreamento e às altas taxas de erros provenientes da interface aérea. Como todas as perdas são interpretadas como causadas por congestionamento, o desempenho do protocolo é ruim. O objetivo desta dissertação é avaliar o desempenho de vários tipos de protocolo TCP através de simulações, sob a influência de interferência nos canais entre o terminal móvel (UE User Equipment) e um servidor remoto. Para isto utilizou-se o software NS3 (Network Simulator versão 3) e os protocolos TCP Westwood Plus, New Reno, Reno e Tahoe. Os resultados obtidos nos testes mostram que o protocolo TCP Westwood Plus possui um desempenho melhor que os outros. Os protocolos TCP New Reno e Reno tiveram desempenho muito semelhante devido ao modelo de interferência utilizada ter uma distribuição uniforme e, com isso, a possibilidade de perdas de bits consecutivos é baixa em uma mesma janela de transmissão. O TCP Tahoe, como era de se esperar, apresentou o pior desempenho dentre todos, pois o mesmo não possui o mecanismo de fast recovery e sua janela de congestionamento volta sempre para um segmento após o timeout. Observou-se ainda que o atraso tem grande importância no desempenho dos protocolos TCP, mas até do que a largura de banda dos links de acesso e de backbone, uma vez que, no cenário testado, o gargalo estava presente na interface aérea. As simulações com erros na interface aérea, introduzido com o script de fading (desvanecimento) do NS3, mostraram que o modo RLC AM (com reconhecimento) tem um desempenho melhor para aplicações de transferência de arquivos em ambientes ruidosos do que o modo RLC UM sem reconhecimento. / The growth of broadband services in mobile networks has led to a demand for data with faster and better quality transmissions. The mobile network technology called LTE (Long Term Evolution) or fourth generation (4G) came up with the objective of attending this demand for wireless access to services such as Internet access, online games, VoIP and video conferencing. LTE is part of the specifications of 3GPP Releases 8 and 9 operating in all-IP networks and providing transmission rates above 100 Mbps (DL), 50 Mbps (UL), low latency (10 ms) and compatibility with previous versions of mobile networks, 2G (GSM / EDGE) and 3G (UMTS / HSPA). The TCP protocol designed to operate in wired networks presents poor performance over wireless channels such as mobile cellular networks, due mainly to the characteristics of selective fading, shadowing and high error rates coming from the air interface. As all losses are interpreted as caused by congestion the protocol performance is bad. The objective of this dissertation is to evaluate the performance of several types of the TCP protocols through simulations, under the influence of channel interference between the mobile terminal (UE - User Equipment) and a remote server. For this, the NS3 (Network Simulator version 3) software and the protocols TCP Westwood Plus, New Reno, Reno and Tahoe were used. Results have shown that the TCP Westwood Plus protocol has a better performance than others. The New Reno and Reno TCP protocols had similar performance due to the proposed interference model, which has a uniform distribution and so the possibility of loss of consecutive bits is low on the same transmission window. TCP Tahoe, as expected has shown the worst performance among all because it does not have the fast recovery mechanism and its congestion window keeps coming back to one segment after a timeout. It was also observed that the delay has a greater importance in the performance of TCP when comparing with the bandwidth of the access and backbone links importance, once in the tested scenario the bottleneck was present in the air interface. The simulation performed with noise in the Air Interface, introduced by the NS3 fading script, showed that the RLC AM (acknowledged mode) had a better performance than the RLM UM (Unacknowledged mode). Engenharia Eletrônica LTE TCP/IP NS3 Análise de desempenho Electronic Engineering LTE TCP/IP NS3 Performance Analysis ENGENHARIAS
18	Análise de desempenho do protocolo TCP em Redes LTE. / Performance evaluation of TCP protocol in LTE Networks. Carlos Alberto Leite Bello Filho 26 February 2014 (has links) O crescimento dos serviços de banda-larga em redes de comunicações móveis tem provocado uma demanda por dados cada vez mais rápidos e de qualidade. A tecnologia de redes móveis chamada LTE (Long Term Evolution) ou quarta geração (4G) surgiu com o objetivo de atender esta demanda por acesso sem fio a serviços, como acesso à Internet, jogos online, VoIP e vídeo conferência. O LTE faz parte das especificações do 3GPP releases 8 e 9, operando numa rede totalmente IP, provendo taxas de transmissão superiores a 100 Mbps (DL), 50 Mbps (UL), baixa latência (10 ms) e compatibilidade com as versões anteriores de redes móveis, 2G (GSM/EDGE) e 3G (UMTS/HSPA). O protocolo TCP desenvolvido para operar em redes cabeadas, apresenta baixo desempenho sobre canais sem fio, como redes móveis celulares, devido principalmente às características de desvanecimento seletivo, sombreamento e às altas taxas de erros provenientes da interface aérea. Como todas as perdas são interpretadas como causadas por congestionamento, o desempenho do protocolo é ruim. O objetivo desta dissertação é avaliar o desempenho de vários tipos de protocolo TCP através de simulações, sob a influência de interferência nos canais entre o terminal móvel (UE User Equipment) e um servidor remoto. Para isto utilizou-se o software NS3 (Network Simulator versão 3) e os protocolos TCP Westwood Plus, New Reno, Reno e Tahoe. Os resultados obtidos nos testes mostram que o protocolo TCP Westwood Plus possui um desempenho melhor que os outros. Os protocolos TCP New Reno e Reno tiveram desempenho muito semelhante devido ao modelo de interferência utilizada ter uma distribuição uniforme e, com isso, a possibilidade de perdas de bits consecutivos é baixa em uma mesma janela de transmissão. O TCP Tahoe, como era de se esperar, apresentou o pior desempenho dentre todos, pois o mesmo não possui o mecanismo de fast recovery e sua janela de congestionamento volta sempre para um segmento após o timeout. Observou-se ainda que o atraso tem grande importância no desempenho dos protocolos TCP, mas até do que a largura de banda dos links de acesso e de backbone, uma vez que, no cenário testado, o gargalo estava presente na interface aérea. As simulações com erros na interface aérea, introduzido com o script de fading (desvanecimento) do NS3, mostraram que o modo RLC AM (com reconhecimento) tem um desempenho melhor para aplicações de transferência de arquivos em ambientes ruidosos do que o modo RLC UM sem reconhecimento. / The growth of broadband services in mobile networks has led to a demand for data with faster and better quality transmissions. The mobile network technology called LTE (Long Term Evolution) or fourth generation (4G) came up with the objective of attending this demand for wireless access to services such as Internet access, online games, VoIP and video conferencing. LTE is part of the specifications of 3GPP Releases 8 and 9 operating in all-IP networks and providing transmission rates above 100 Mbps (DL), 50 Mbps (UL), low latency (10 ms) and compatibility with previous versions of mobile networks, 2G (GSM / EDGE) and 3G (UMTS / HSPA). The TCP protocol designed to operate in wired networks presents poor performance over wireless channels such as mobile cellular networks, due mainly to the characteristics of selective fading, shadowing and high error rates coming from the air interface. As all losses are interpreted as caused by congestion the protocol performance is bad. The objective of this dissertation is to evaluate the performance of several types of the TCP protocols through simulations, under the influence of channel interference between the mobile terminal (UE - User Equipment) and a remote server. For this, the NS3 (Network Simulator version 3) software and the protocols TCP Westwood Plus, New Reno, Reno and Tahoe were used. Results have shown that the TCP Westwood Plus protocol has a better performance than others. The New Reno and Reno TCP protocols had similar performance due to the proposed interference model, which has a uniform distribution and so the possibility of loss of consecutive bits is low on the same transmission window. TCP Tahoe, as expected has shown the worst performance among all because it does not have the fast recovery mechanism and its congestion window keeps coming back to one segment after a timeout. It was also observed that the delay has a greater importance in the performance of TCP when comparing with the bandwidth of the access and backbone links importance, once in the tested scenario the bottleneck was present in the air interface. The simulation performed with noise in the Air Interface, introduced by the NS3 fading script, showed that the RLC AM (acknowledged mode) had a better performance than the RLM UM (Unacknowledged mode). Engenharia Eletrônica LTE TCP/IP NS3 Análise de desempenho Electronic Engineering LTE TCP/IP NS3 Performance Analysis ENGENHARIAS
19	Développement d'outils pour l'étude des interactions protéine-protéine / Development of tools for the study of protein-protein interaction Milhas, Sabine 24 June 2016 (has links) Au cours de ma thèse je me suis intéressée aux interactions protéine-protéine (PPI’s). Les PPI’s jouent un rôle majeur dans une grande diversité de processus cellulaires et sont maintenant considérées comme une cible majeure dans le but de développer de nouveaux médicaments. Cependant, cibler ce type d’interactions requiert le développement de chimiothèques dédiées, permettant d’accélérer la découverte de molécules « touches ». Pour surmonter ce problème, une chimiothèque orientée PPI (2P2I3D) a été conçu au laboratoire. Dans un premier temps, j’ai donc évalué cette chimiothèque sur différents complexes possédant des interfaces variées. Les résultats obtenus ont révélé des taux de touches supérieurs à ceux obtenus avec des chimiothèques non orientées, de 0,2 à 1,6% contre 0,01 à 0,1%, respectivement. Cette étude a permis d’établir une preuve de concept de la faisabilité de créer une chimiothèque orientée PPI, permettant ainsi une accélération de la découverte de composés biologiquement actifs.Dans un deuxième temps, je me suis intéressée à l’interaction entre deux protéines majeures du virus de la dengue : les protéines NS3 et NS5. J’ai tout d’abord identifié et caractérisé un nouveau site d’interaction, ce qui m’a permis de mettre en évidence que cette interaction avait pour conséquence d’augmenter l’activité enzymatique du domaine hélicase. J’ai par la suite recherché et identifié des petites molécules chimiques capable d’inhiber cette interaction. Les différentes caractérisations effectuées ont permis de mettre en évidence un effet antiviral. Ces inhibiteurs constituent un excellent point de départ afin d’étudier plus en détail le rôle biologique de ce complexe. / In my thesis I became interested in protein-protein interactions (PPI's). PPI's play a major role in a variety of cellular processes and are now considered a major target in order to develop new drugs. However, targeting such interactions requires the development of dedicated libraries, to accelerate the discovery of “hits”molecules .To overcome this issue, a focused chemical library PPI (2P2I3D) was designed in the laboratory.At first, I evaluated this chemical library on different complexes with diverse interfaces. The results showed higher hit rate to those obtained with non-oriented libraries, from 0.2 to 1.6% against 0.01 to 0.1%, respectively. This study has established a proof of concept of the feasibility of creating a focused chemical library PPI, thus accelerating the discovery of biologically active compounds.Secondly, I am interested in the interaction between two major proteins of dengue virus: the NS3 and NS5 proteins. I initially identified and characterized a novel interaction site, which allowed me to demonstrate that this interaction had the effect of increasing the enzymatic activity of the helicase domain. I searched and identified small molecules able to inhibit this interaction. The different characterizations helped to highlight an antiviral effect. These inhibitors are an excellent starting point to further explore the biological role of this complex. Interaction protéine-Protéine Inhibiteurs Virus de la dengue Ns3 Ns5 Protein protein interaction Inhibitors Dengue virus Ns3 Ns5 570
20	Unravelling The Regulators Of Translation And Replication Of Hepatitis C Virus Ray, Upasana January 2011 (has links) (PDF) Unravelling the regulators of translation and replication of Hepatitis C virus Hepatitis C virus (HCV) is a positive sense, single stranded RNA virus belonging to the genus Hepacivirus and the family Flaviviridae. It infects human liver cells predominantly. Although, the treatment with α interferon and ribavirin can control HCV in some cases, they fail to achieve sustained virological response in others, thus emphasizing the need of novel therapeutic targets. The viral genome is 9.6 kb long consisting of a 5’ untranslated region (5’UTR), a long open reading frame (ORF) that encodes the viral proteins and the 3’ untranslated region (3’UTR). The 5’UTR contains a cis acting element, the internal ribosome entry site (IRES) that mediates the internal initiation of translation. The HCV 5’UTR is highly structured and consists of four major stem-loops (SL) and a pseudoknot structure. HCV proteins are synthesized by the IRES mediated translation of the viral RNA, which is the initial obligatory step after infection. The viral proteins are synthesized in the form of a long continuous chain of proteins, the polyprotein, which is then processed by the host cell and the viral proteases. Once viral proteins are synthesized sufficiently, the viral RNA is replicated. However the mechanism of switch from translation to viral RNA replication is not well understood. Several host proteins as well as the viral proteins help in the completion of various steps in the HCV life cycle. In this thesis, the role of two such factors in HCV RNA translation and replication has been characterized and exploited to develop anti-HCV peptides. The HCV proteins are categorized into two major classes based on the functions broadly: the non structural and the structural proteins. HCV NS3 protein (one of the viral non structural proteins) plays a central role in viral polyprotein processing and RNA replication. In the first part of the thesis, it has been demonstrated that the NS3 protease (NS3pro) domain alone can specifically bind to HCV-IRES RNA, predominantly in the SLIV region. The cleavage activity of the NS3 protease domain is reduced upon HCV-RNA binding owing to the participation of the catalytic triad residue (Ser 139) in this RNA protein interaction. More importantly, NS3pro binding to the SLIV region hinders the interaction of La protein, a cellular IRES-trans acting factor required for HCV IRES-mediated translation, thus resulting in the inhibition of HCV-IRES activity. Moreover excess La protein could rescue the inhibition caused by the NS3 protease. Additionally it was observed that the NS3 protease and human La protein could out-compete each other for binding to the HCV SL IV region indicating that these two proteins share the binding region near the initiator AUG which was further confirmed using RNase T1 foot printing assay. Although an over expression of NS3pro as well as the full length NS3 protein decreased the level of HCV IRES mediated translation in the cells, replication of HCV RNA was enhanced significantly. These observations suggested that the NS3pro binding to HCV IRES reduces translation in favour of RNA replication. The competition between the host factor (La) and the viral protein (NS3) for binding to HCV IRES might contribute in the regulation of the molecular switch from translation to replication of HCV. In the second part the interaction of NS3 protease and HCV IRES has been elucidated in detail and the insights obtained were used to target HCV RNA function. Computational approach was used to predict the putative amino acid residues within the protease that might be involved in the interaction with the HCV IRES. Based on the predictions a 30-mer peptide (NS3proC-30) was designed from the RNA binding region. This peptide retained the RNA binding ability and also inhibited IRES mediated translation. The NS3proC-30 peptide was further shortened to 15-mer length (NS3proC-C15) and demonstrated ex vivo its ability to inhibit translation as well as replication. Additionally, its activity was tested in vivo in a mice model by encapsulating the peptide in Sendai virus based virosome followed by preferential delivery in mice liver. This virosome derived from Sendai virus F protein has terminal galactose moiety that interacts with the asialoglycoprotein receptor on the hepatocytes leading to membrane fusion and release of contents inside the cell. Results suggested that this peptide can be used as a potent anti-HCV agent. It has been shown earlier from our laboratory, that La protein interacts with HCVIRES near initiator AUG at GCAC motif by its central RNA recognition motif, the RRM2 (residues 112-184). A 24 mer peptide derived from this RRM2 of La (LaR2C) retained RNA binding ability and inhibited HCV RNA translation. NMR spectroscopy of the HCV-IRES bound peptide complex revealed putative contact points, mutations at which showed reduced RNA binding and translation inhibitory activity. The residues responsible for RNA recognition were found to form a turn in the RRM2 structure. A 7-mer peptide (LaR2C-N7) comprising this turn showed significant translation inhibitory activity. The bound structure of the peptide inferred from transferred NOE (Nuclear Overhauser Effect) experiments suggested it to be a βturn. Interestingly, addition of hexa-arginine tag enabled the peptide to enter Huh7 cells and showed inhibition HCV-IRES function. More importantly, the peptide significantly inhibited replication of HCVRNA. Smaller forms of this peptide however failed to show significant inhibition of HCV RNA functions suggesting that the 7-mer peptide as the smallest but efficient anti-HCV peptide from the second RNA recognition motif of the human La protein. Further, combinations of the LaR2C-N7 and NS3proC-C15 peptide showed better inhibitory activity. Both the peptides were found to be interacting at similar regions of SLIV around the initiator AUG. The two approaches have the potential to block the HCV RNA-directed translation by targeting the host factor and a viral protein, and thus can be tried in combination as a multi drug approach to combat HCV infection. Taken together, the study reveals important insights about the complex regulation of the HCV RNA translation and replication by the host protein La and viral NS3 protein. The interaction of the NS3 protein with the SLIV of HCV IRES leads to dislodging of the human La protein to inhibit the translation in favour of the RNA replication. These two proteins thus act as the regulators of the translation and the replication of viral RNA. The peptides derived from these regulators in turn regulate the functions of these proteins and inhibit the HCV RNA functions. Hepatitis C Virus (HCV) Hepatitis C Virus - Replication HCV-NS3 Protein Non-structural Protein 3 Human La Protein HCV IRES NS3 Protease Hep C Viral Switch Hepatitis C Viral RNA NS3 Protein Virology

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