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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Structure of the RNA-dependent RNA polymerase from influenza C virus

Hengrung, Narin January 2014 (has links)
The influenza virus causes a disease that kills approximately 500,000 people worldwide each year. Influenza is a negative-sense RNA virus that encodes its own RNA-dependent RNA polymerase. This protein (FluPol) carries out both genome replication and viral transcription. Therefore, like the L-proteins of non-segmented negative-sense RNA (nsRNA) viruses, FluPol also contains mRNA capping and polyadenylation functionality. In FluPol, capping is achieved by snatching cap structures from cellular mRNAs, so requiring cap-binding and endonuclease activities. This makes FluPol a substantial machine. It is a heterotrimeric complex, composed of PB1, PB2 and PA/P3 subunits, with a total molecular weight of 255 kDa. PB1 houses the polymerase active site, whereas PB2 and PA contain, respectively, cap-binding and endonuclease domains. Currently, we only have high resolution structural information for isolated fragments of FluPol. This severely hampers our understanding of influenza replication and consequently inhibits the development of therapies against the virus. In this DPhil project, I have determined a preliminary structure for the heterotrimeric FluPol of influenza C/Johannesburg/1/66, solved by x-ray crystallography to 3.6 Å. Overall, FluPol has an elongated structure with a conspicuous deep groove. PB1 displays the canonical right-hand-like polymerase fold. It sits at the centre of the particle, sandwiched between the two domains of P3, and with PB2 stacked against one side of this dimer. In the structure, the polymerase and endonuclease catalytic sites are both ~40 Å away from the cap-binding pocket. This pocket also faces a tunnel leading to the polymerase core. This suggests a mechanism for how capped cellular mRNAs are cleaved and then fed into the polymerase active site to prime transcription. The structure also hints at a unique trajectory for template RNA, in which the RNA exits at an angle ~180° from which it came in. This provides an explanation for how the polymerases of influenza, and other nsRNA viruses, can copy templates that are packaged into ribonucleoprotein complexes. My work reveals the first molecular structure of any polymerase from an nsRNA virus. It uncovers the arrangement of functional domains within FluPol, illuminating the mechanisms of this and related viral polymerases. This work will help focus future experiments into FluPol biology, and should hopefully spur the development of novel antiviral drugs.
2

Epidemiologia e caracterização molecular do vírus da Influenza em quatro espécies de pinguins na Região Antártica. / Epidemiology and molecular characterization of the influenza virus in four penguin species of the antartic region.

Sanfilippo, Luiz Francisco 23 February 2011 (has links)
O Vírus da influenza, apesar de todas as epidemias e pandemias referirem-se a infecções em seres humanos, não está restrita a espécie humana e é capaz de causar debilidade ou mortalidade em várias outras espécies, incluindo cavalos, suínos, mamíferos marinhos e aves, entre outros. Estudos ecológicos das viroses de influenza conduziram a hipótese que todas as que acometem mamíferos derivam de reservatórios destes vírus em aves. Mesmo com programas de monitoramento contínuo de aves silvestres em alguns países do mundo que possuem casos originados pelos vírus aviário H5N1, pouco foi feito na Antártica e por isso, o presente trabalho foi realizado nas estações de verão antártico de 2006, 2007 e 2008 em duas localidades no território Antártico, a Península Keller, localizada na Ilha Rei George e na ilha Elefante 61°08S, 55°07W, a primeira onde está situada a Estação Antártica Comandante Ferraz-EACF e a segunda onde está localizada uma base de apoio a estudos avançados. Para este estudo foi realizada a coleta de 283 amostras de quatro diferentes espécies de pinguins: Pygoscelis adeliae; P. papua; P. antarctica; Aptenodytes patagonicus. Para o diagnóstico das amostras colhidas, foi aplicada a detecção direta dos produtos amplificados pelo método de RT-PCR em gel de agarose confirmados pelo método de Real-Time PCR (Applied Biosystems) e pelo RT-PCR-GeneScan no laboratório de Virologia Clínica e Molecular, do Departamento de Microbiologia, da Universidade de São Paulo. Os resultados obtidos em nosso estudo foram 8 amostras positivas em pinguins para o vírus Influenza A. As amostras positivas por RT-PCR foram encaminhadas para o laboratório de Influenza do Department of Infectious Diseases, St. Jude Children\'s Research Hospital, Memphis, TN, USA, para isolamento em ovos embrionados, não havendo crescimento de vírus da influenza A. Quatro destas amostras positivas puderam ser sequenciadas e comparadas com sequências de Influenza A depositadas no Genbank apresentando uma identidade de 96,8 % a 100 % entre elas e o controle tendo este último uma identidade de 100% com as do banco de dados, confirmando a presença do vírus nestas aves. / Epidemics and pandemics of influenza usually refer to infections in human beings. The influenza virus is not, however, restricted to humans and can cause infirmity and death in other species including horses, swine, marine mammals, birds, and others. Ecological studies of viral infections have led to the hypothesis that the influenza viruses that attack mammals have their origin in the accumulation of these viruses in birds (avian flu). In some countries with influenza cases caused by the avian H5N1 virus, there was monitoring of wild birds but little had been done in Antarctica. The present work was therefore carried out during the Antarctic summer seasons of 2006, 2007, and 2008 in two Antarctic locations: The Commander Ferraz Antarctic Station, on the Keller Peninsula of King George Island, and at the Base of Advanced Studies located on Elephant Island (61°08S, 55°07W). Two hundred eighty-three (283) samples from four different penguin species Pygoscelis adeliae, Pygoscelis papua, Pygoscelis antarctica; and Aptenodytes patagonicus were collected for this study. Diagnoses of the samples were performed not only by application of direct detection and amplification according to the RT-PCR method in agar-gel, but also by Real-Time PCR (Applied Biosystems), and by RT-PCR gene scan at the Laboratory of Clinical and Molecular Virology of the Department of Microbiology of the University of Sao Paulo. Eight of the penguin samples tested positive for the Influenza-A virus. The positive samples, as determined by RT-PCR, were sent to the Influenza Laboratory of the Department of Infectious Diseases of the St. Jude Research Hospital in Memphis, Tennessee, USA, to be isolated in egg embryos where no further growth of the Influenza-A virus took place. Four of these positive samples could be sequenced and compared with those of Influenza-A on deposit at the Gene Bank and ranged from 96.85 to 100% when compared with the control samples (100% positive), thus confirming the presence of the virus in the tested birds.
3

Epidemiologia e caracterização molecular do vírus da Influenza em quatro espécies de pinguins na Região Antártica. / Epidemiology and molecular characterization of the influenza virus in four penguin species of the antartic region.

Luiz Francisco Sanfilippo 23 February 2011 (has links)
O Vírus da influenza, apesar de todas as epidemias e pandemias referirem-se a infecções em seres humanos, não está restrita a espécie humana e é capaz de causar debilidade ou mortalidade em várias outras espécies, incluindo cavalos, suínos, mamíferos marinhos e aves, entre outros. Estudos ecológicos das viroses de influenza conduziram a hipótese que todas as que acometem mamíferos derivam de reservatórios destes vírus em aves. Mesmo com programas de monitoramento contínuo de aves silvestres em alguns países do mundo que possuem casos originados pelos vírus aviário H5N1, pouco foi feito na Antártica e por isso, o presente trabalho foi realizado nas estações de verão antártico de 2006, 2007 e 2008 em duas localidades no território Antártico, a Península Keller, localizada na Ilha Rei George e na ilha Elefante 61°08S, 55°07W, a primeira onde está situada a Estação Antártica Comandante Ferraz-EACF e a segunda onde está localizada uma base de apoio a estudos avançados. Para este estudo foi realizada a coleta de 283 amostras de quatro diferentes espécies de pinguins: Pygoscelis adeliae; P. papua; P. antarctica; Aptenodytes patagonicus. Para o diagnóstico das amostras colhidas, foi aplicada a detecção direta dos produtos amplificados pelo método de RT-PCR em gel de agarose confirmados pelo método de Real-Time PCR (Applied Biosystems) e pelo RT-PCR-GeneScan no laboratório de Virologia Clínica e Molecular, do Departamento de Microbiologia, da Universidade de São Paulo. Os resultados obtidos em nosso estudo foram 8 amostras positivas em pinguins para o vírus Influenza A. As amostras positivas por RT-PCR foram encaminhadas para o laboratório de Influenza do Department of Infectious Diseases, St. Jude Children\'s Research Hospital, Memphis, TN, USA, para isolamento em ovos embrionados, não havendo crescimento de vírus da influenza A. Quatro destas amostras positivas puderam ser sequenciadas e comparadas com sequências de Influenza A depositadas no Genbank apresentando uma identidade de 96,8 % a 100 % entre elas e o controle tendo este último uma identidade de 100% com as do banco de dados, confirmando a presença do vírus nestas aves. / Epidemics and pandemics of influenza usually refer to infections in human beings. The influenza virus is not, however, restricted to humans and can cause infirmity and death in other species including horses, swine, marine mammals, birds, and others. Ecological studies of viral infections have led to the hypothesis that the influenza viruses that attack mammals have their origin in the accumulation of these viruses in birds (avian flu). In some countries with influenza cases caused by the avian H5N1 virus, there was monitoring of wild birds but little had been done in Antarctica. The present work was therefore carried out during the Antarctic summer seasons of 2006, 2007, and 2008 in two Antarctic locations: The Commander Ferraz Antarctic Station, on the Keller Peninsula of King George Island, and at the Base of Advanced Studies located on Elephant Island (61°08S, 55°07W). Two hundred eighty-three (283) samples from four different penguin species Pygoscelis adeliae, Pygoscelis papua, Pygoscelis antarctica; and Aptenodytes patagonicus were collected for this study. Diagnoses of the samples were performed not only by application of direct detection and amplification according to the RT-PCR method in agar-gel, but also by Real-Time PCR (Applied Biosystems), and by RT-PCR gene scan at the Laboratory of Clinical and Molecular Virology of the Department of Microbiology of the University of Sao Paulo. Eight of the penguin samples tested positive for the Influenza-A virus. The positive samples, as determined by RT-PCR, were sent to the Influenza Laboratory of the Department of Infectious Diseases of the St. Jude Research Hospital in Memphis, Tennessee, USA, to be isolated in egg embryos where no further growth of the Influenza-A virus took place. Four of these positive samples could be sequenced and compared with those of Influenza-A on deposit at the Gene Bank and ranged from 96.85 to 100% when compared with the control samples (100% positive), thus confirming the presence of the virus in the tested birds.

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