Studies on HIV-1 core assembly /

Abdurahman, Samir,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.

Proteína capsidial do Rupestris stem pitting-associated vírus : seqüenciamento do gene, expressão em Escherichia coli, purificação e produção de anti-soro policlonal /

Pereira, Ana Cecília Bergamim.

January 2008

Orientador: José Osmar Gaspar / Banca: Hugo Kuniyuki / Banca: Fátima Pereira de Souza / Resumo: O lenho estriado de rupestris ou cascudo (Rupestris stem pitting - RSP), um dos componentes do Complexo do lenho rugoso ("Rugose wood" - RW), é considerado uma das doenças de videira transmitidas por enxertia de grande relevância econômica para a viticultura. O Rupestris stem pitting associated virus - RSPaV foi associado com a doença do lenho estriado ou cascudo, sendo classificado como espécie do gênero Foveavirus, pertencente a família Flexiviridae. No presente trabalho, descrevem-se o sequenciamento do gene da proteína capsidial (CP) de um isolado brasileiro do RSPaV (RSPaV-SP), sua expressão em Escherichia coli, purificação da proteína capsidial recombinante e a produção de anti-soro policlonal em coelho. O sequenciamento do gene resultou em uma seqüência de 780 nucleotídeos e 259 aminoácidos deduzidos com massa molecular estimada de 28 kDa. A análise filogenética, entre a seqüência correspondente à CP do RSPaV-SP e outras variantes do mesmo vírus, evidenciou a formação de 4 grupos distintos, sendo o isolado brasileiro incluído no grupo da variante BS do RSPaV. A proteína capsidial recombinante foi purificada em coluna de afinidade e apresentou massa molecular estimada de 32kDa (4kDa da seqüência do vetor e 28kD da CP do RSPaV-SP). O anti-soro produzido apresentou-se específico na detecção da proteína capsidial recombinante purificada por "Western-blot", sem reação com proteína heteróloga a partir da diluição 1:4000. Nesta diluição, o anti-soro foi efetivo na detecção do vírus em extratos de plantas infectadas, sendo que nenhuma reação foi observada com extratos de plantas sadias. Considerando-se que este vírus apresenta variações de concentração na planta durante as estações do ano, e que, os testes sorológicos foram realizados durante a estação de baixa concentração do vírus, os resultados ...(Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Rupestris stem pitting (RSP), a component of the rugose wood (RW) complex, is one of the most graft-transmissible grapevine virus diseases with great economic importance for viticulture . Rupestris stem pitting-associated virus (RSPaV), genus Foveavirus within the family Flexiviridae, has been associated with this disease. This work reports the sequencing of the coat protein (CP) gene of a brazilian an isolate of RSPaV (RSPaV-SP), its expression in Escherichia coli, purification of the recombinant coat protein and production of a polyclonal antiserum in rabbit. CP gene was found to be 780nt long, with a 256 deduced amino acid sequence encoding a predicted protein of 28 kDa. In filogenetic analysis, with RSPaV-SP and other variants of the virus, four groups were found and the sequence of RSPaV-SP showed the highest identity with the variant RSPaV-BS. The recombinant coat protein was purified by affinity chromatography and showed a molecular weight of 32kDa (4 kDa from a small vector sequence plus 28 kDa for the CP of RSPaV-SP). The antiserum proved specific for detection of the recombinant protein by Western Blot, and did not react with heterologous proteins starting at a dilution of 1:4000. At this dilution, the antiserum was effective in the virus detection of leaf extracts of infected plants and no reaction was observed with extracts from healthy grapevines. Considering that the virus is found at low concentrations in the plants during the seasons of the year, the results obtained so far were highly satisfactory for RSPaV detection. Serological methods have advantages over the biological indexing method, since they are cheaper and can be used in large-scale tests such as ELISA. Experiments using the ELISA technique were not successful. Purification of the native recombinant protein would be an alternative more efective to detect the virus using these technique. / Mestre

Fitopatologia.

Vírus de plantas.

Videira.

Foveavirus. eng

Polyclonal antiserum. eng

Capsid protein. eng

Studium variability genů obalových proteinů viru mozaiky ředkvičky / A study of variability of capsid protein genes of Radish mosaic virus

HOLÁ, Marcela

January 2008

The part of RNA2 genome segment of several isolates of Radish mosaic virus (RaMV) including capsid protein genes was sequenced. Variability of capsid protein genes among the isolates of Radish mosaic virus was studied.

Molecular Characterization Of Capsid Protein And Nuclear Inclusion Protein Of Pepper Vein Banding Virus

Roy, Anindya

12 1900

No description available.

Plant Viruses

Pepper Vein Banding Virus (PVBV)

Nuclear Protein

Capsid Protein

NIa Proteinase

Virology

Role kapsidového proteinu virové hepatitidy B v hostitelském ubikvitin-proteazomovém systému / The role of Hepatitis B virus capsid protein in the host ubiquitin proteasome pathway

Eliáš, Vratislav

January 2018

Hepatitis B virus (HBV) is a Hepadnaviridae virus infecting mammals. Its infection can result in an acute or chronic infection. Chronic infection can result in hepatocellular carcinoma and liver cirrhosis, potentially leading to death of the patient. HBV is a small 42 nm virus with a genome length of 3.2 kb encoding seven viral proteins. HBV Core protein (HBc) is a capsid forming protein which is pleiotropic in function. We have identified two ubiquitin ligases which could interact with this protein: F-box only protein 3 (FBXO3; E3 ubiquitin ligase) and Ubiquitin conjugating enzyme E2 O (UBE2O; E2/E3 ubiquitin ligase). By employing multiple methods we have confirmed these interactions. Co- immunoprecipitation and further western blot analysis unveiled multiple new insights into the ligases′ impact on HBc: FBXO3-mediated HBc polyubiquitination stimulation and UBE2O-mediated HBc monoubiquitination promotion. FBXO3's and UBE2O's role in HBV life cycle was investigated as well. By silencing the expression of FBXO3 and UBE2O respectively, we have observed changes in HBV replication levels: FBXO3 serves as an inhibitor of HBV replication, while UBE2O stimulates the course of HBV life cycle. Further investigation of these newly-discovered understandings may lead to a whole new HBV - host interplay...

The histone chaperone HIRA is crucial for the early establishment of hepatitis B virus minichromosome / La chaperone d'histones, HIRA, est essentielle dans l'établissement précoce du minichromosome du virus de l'hépatite B

Locatelli, Maëlle

18 September 2018

Le virus de l'hépatite B (HBV) infecte de manière chronique 240 millions de personnes dans le monde, et est la principale cause de carcinome hépatocellulaire. Actuellement, les traitements standards permettent une suppression virale à long terme, mais ne sont pas capables d'éliminer complètement le virus, en raison de la persistance de l'ADN circulaire et clos de façon covalente (ADNccc). Ce minichromosome viral réside dans le noyau des hépatocytes infectés, grâce à sa structure chromatinienne. En effet, lors de l'infection d'un hépatocyte, l'ADN viral partiellement double brin (ADN relâché circulaire (rc)) est libéré dans le noyau, où il est réparé et enveloppé par des protéines histones, afin de former une structure d'épisome chromatinisé. Les mécanismes conduisant à la formation ainsi qu'à la chromatinisation de l'ADNccc sont encore largement inconnus, et leur élucidation constituerait une première étape vers l'identification de nouvelles cibles thérapeutiques, susceptibles d'altérer la persistance de l'ADNccc. Dans ce but, nous avons étudié le rôle des facteurs hôtes de réparation de l'ADN, et des voies d'assemblage des nucléosomes, dans la formation de l'ADNccc, à des stades précoces (entre 30 minutes et 72 heures) de l'infection, dans des lignées cellulaires d'HepG2-NTCP, ainsi que dans des hépatocytes primaires humains. Nous nous sommes particulièrement concentrés sur la protéine chaperone d'histones, HIRA, qui est connue pour déposer le variant d'histone 3.3 (H3.3) sur l'ADN cellulaire d'une manière indépendante de la réplication et en association avec le remaniement des nucléosomes pendant la transcription et la réparation de l'ADN. Nous avons été capables de détecter l'ADNccc dans la fraction nucléaire des hépatocytes dès 30 minutes et 24 heures post-infection, par qPCR et Southern Blotting (SB), respectivement. L'extinction de HIRA par ARN interférent (siARN) avant l'inoculation du virus, a conduit à une forte diminution de l'accumulation de l'ADNccc (à la fois par qPCR et Southern Blot), qui était indépendante de la protéine HBx (en utilisant un virus HBx-défectueux). Les niveaux d'ADNrc sont restés stables, indiquant soit une éventuelle transition de l'ADNrc en ADNccc incomplète, ou retardée. L'analyse par immunoprécipitation de la chromatine a montré que HIRA était liée à l'ADNccc dès 30 minutes après infection, et que son recrutement était concomitant avec le dépôt de l'histone H3.3, ainsi que la liaison de la protéine de capside du HBV (HBc). Après 24 heures d'infection, une augmentation de la liaison de H3.3 et de l'ARN polymérase II sur l'ADNccc a été observée, en corrélation avec l'initiation de la transcription de l'ARN viral de 3.5 kb. Par des expériences de co-immunoprécipitation et de test de proximité entre protéines (PLA), nous avons montré que HIRA était capable d'interagir avec HBc dans des hépatocytes infectés et dans une lignée cellulaire HepaRG exprimant HBc de manière inductible. En conclusion, nos résultats suggèrent que la chromatinisation de l'ADN viral entrant est un événement très précoce, nécessitant l'histone chaperone HIRA. Bien que HBx ne soit pas requis pour ce processus, HBc pourrait jouer un rôle majeur, suggérant que l'interaction entre HIRA et HBc pourrait représenter une nouvelle cible thérapeutique à étudier / Hepatitis B virus (HBV) chronically infects 240 million people worldwide and is the major cause of hepatocellular carcinoma (HCC). Currently standard-of-care treatments can achieve longterm viral suppression, but are not able to completely eliminate the virus, due to the persistence of the covalently closed circular DNA (cccDNA). cccDNA, the viral minichromosome, resides in the nucleus of infected hepatocytes by virtue of its chromatin structure. Indeed, upon entry into hepatocytes, the partially double stranded viral DNA (relaxed circular (rc)DNA) is released into the nucleus, where it is repaired and wrapped by histones to form an episomal chromatinized structure. The mechanisms leading to cccDNA formation and chromatinization are still largely unknown and their elucidation would be a first step toward the identification of new therapeutic targets to impair cccDNA persistence. To this aim, we investigated the role of host factors belonging to DNA repair and nucleosome assembly pathways in cccDNA formation at early time points (i.e. between 30 minutes and 72 hours) post-infection in both HepG2-NTCP cell line and Primary Human Hepatocytes (PHH). We particularly focused on the histone chaperone Hira, which is known to deposit histone variant 3.3 (H3.3) onto cellular DNA in a replication-independent manner and in association to nucleosome reshuffling during transcription and DNA repair. We were able to detect cccDNA in the nuclear fraction of hepatocytes as early as 30 minutes and 24h post-infection, by qPCR and Southern Blotting (SB), respectively. Knock-down of Hira by RNA interference before virus inoculation led to a strong decrease in cccDNA accumulation (both in qPCR and SB) which was independent from HBx protein expression (using an HBx defective virus). rcDNA levels remained stable, indicating either a possible incomplete or delayed rcDNA to cccDNA transition. Chromatin Immunoprecipitation analysis showed that Hira was bound to cccDNA already at 2 hours post-infection and that its recruitment was concomitant with the deposition of histone H3.3 and the binding of HBV capsid protein (HBc). After 24 hours of infection, an increase of H3.3 and Pol2 binding on cccDNA was observed, correlating with the initiation of the transcription of the 3.5 kb RNA. By Co-Immunoprecipitation and Proximity Ligation Assay experiments, we showed that Hira was able to interact with HBc in infected hepatocytes and in a HepaRG cell line expressing HBc in an inducible manner. Altogether, our results suggest that chromatinization of incoming viral DNA is a very early event, requiring the histone chaperone Hira. While HBx is not required for this process, HBc could play a major role, suggesting that the interaction between Hira and HBc could represent a new therapeutic target to be investigated

Virus de l’hépatite B

ADNccc

Chaperone d’histones

Protéine de capsid

Hepatitis B virus

CccDNA

Histone chaperone

Capsid protein

579.2

Proteína capsidial do Rupestris stem pitting-associated vírus: seqüenciamento do gene, expressão em Escherichia coli, purificação e produção de anti-soro policlonal

Pereira, Ana Cecília Bergamim [UNESP]

13 March 2008

Made available in DSpace on 2014-06-11T19:27:20Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-03-13Bitstream added on 2014-06-13T20:35:43Z : No. of bitstreams: 1 pereira_acb_me_sjrp.pdf: 828257 bytes, checksum: de1b44b38dfac1b95be8ef5a683e7543 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O lenho estriado de rupestris ou cascudo (Rupestris stem pitting – RSP), um dos componentes do Complexo do lenho rugoso (“Rugose wood” - RW), é considerado uma das doenças de videira transmitidas por enxertia de grande relevância econômica para a viticultura. O Rupestris stem pitting associated virus – RSPaV foi associado com a doença do lenho estriado ou cascudo, sendo classificado como espécie do gênero Foveavirus, pertencente a família Flexiviridae. No presente trabalho, descrevem-se o sequenciamento do gene da proteína capsidial (CP) de um isolado brasileiro do RSPaV (RSPaV-SP), sua expressão em Escherichia coli, purificação da proteína capsidial recombinante e a produção de anti-soro policlonal em coelho. O sequenciamento do gene resultou em uma seqüência de 780 nucleotídeos e 259 aminoácidos deduzidos com massa molecular estimada de 28 kDa. A análise filogenética, entre a seqüência correspondente à CP do RSPaV-SP e outras variantes do mesmo vírus, evidenciou a formação de 4 grupos distintos, sendo o isolado brasileiro incluído no grupo da variante BS do RSPaV. A proteína capsidial recombinante foi purificada em coluna de afinidade e apresentou massa molecular estimada de 32kDa (4kDa da seqüência do vetor e 28kD da CP do RSPaV-SP). O anti-soro produzido apresentou-se específico na detecção da proteína capsidial recombinante purificada por “Western-blot”, sem reação com proteína heteróloga a partir da diluição 1:4000. Nesta diluição, o anti-soro foi efetivo na detecção do vírus em extratos de plantas infectadas, sendo que nenhuma reação foi observada com extratos de plantas sadias. Considerando-se que este vírus apresenta variações de concentração na planta durante as estações do ano, e que, os testes sorológicos foram realizados durante a estação de baixa concentração do vírus, os resultados... / Rupestris stem pitting (RSP), a component of the rugose wood (RW) complex, is one of the most graft-transmissible grapevine virus diseases with great economic importance for viticulture . Rupestris stem pitting-associated virus (RSPaV), genus Foveavirus within the family Flexiviridae, has been associated with this disease. This work reports the sequencing of the coat protein (CP) gene of a brazilian an isolate of RSPaV (RSPaV-SP), its expression in Escherichia coli, purification of the recombinant coat protein and production of a polyclonal antiserum in rabbit. CP gene was found to be 780nt long, with a 256 deduced amino acid sequence encoding a predicted protein of 28 kDa. In filogenetic analysis, with RSPaV-SP and other variants of the virus, four groups were found and the sequence of RSPaV-SP showed the highest identity with the variant RSPaV-BS. The recombinant coat protein was purified by affinity chromatography and showed a molecular weight of 32kDa (4 kDa from a small vector sequence plus 28 kDa for the CP of RSPaV-SP). The antiserum proved specific for detection of the recombinant protein by Western Blot, and did not react with heterologous proteins starting at a dilution of 1:4000. At this dilution, the antiserum was effective in the virus detection of leaf extracts of infected plants and no reaction was observed with extracts from healthy grapevines. Considering that the virus is found at low concentrations in the plants during the seasons of the year, the results obtained so far were highly satisfactory for RSPaV detection. Serological methods have advantages over the biological indexing method, since they are cheaper and can be used in large-scale tests such as ELISA. Experiments using the ELISA technique were not successful. Purification of the native recombinant protein would be an alternative more efective to detect the virus using these technique.

Fitopatologia

Virus de plantas

Videira

Lenho estriado de rupestris

Lenho estriado de cascudo

Proteína capsidial

Foveavirus

Polyclonal antiserum

Capsid protein

Expressão da proteína de capsídeo recombinante do vírus Semliki Forest e sua associação in vitro com RNA auto replicativo / Expression of Semliki Forest virus recombinant capsid protein and its in vitro association with auto amplify RNA

Gomes, Roselane Paiva

11 April 2018

Vacinação contra doenças virais e bacterianas tem sido uma das histórias de sucesso da medicina humana e veterinária. Vacinas genéticas são constituídas apenas de DNA (como plasmídeos) ou RNA (como mRNA), que são entregues às células alvo. Esta abordagem proporciona uma vantagem significativa, pois essas preparações em geral apresentam facilidade de construção genética, baixo custo, rapidez de produção em massa, estabilidade elevada e um perfil de segurança atraente. Vacinas baseadas em RNA recentemente receberam maior atenção porque, ao contrário de vacinas de DNA, são processadas no citoplasma, excluindo a necessidade de entrada no núcleo celular. O vírus Semliki Forest (SFV, Alphavirus, Togaviridae ) possui um RNA genômico, auto replicativo, de simples fita e polaridade positiva, protegido em uma nucleocápside icosaédrica, composta pelo próprio RNA e pela proteína de cápside viral (C), de 267 aminoácidos. A nucleocápside contém 180 cópias da proteína C e é coberta por uma membrana lipoprotéica contendo as glicoproteínas virais. Para realizar a entrega de moléculas de RNA com fins de imunização é fundamental que o material esteja protegido da ação de enzimas. Assim, o objetivo deste trabalho foi expressar a proteína C recombinante de SFV em E.coli , associá-la in vitro com RNA auto replicativo, contendo gene repórter e fazer entrega deste complexo à célula alvo. Para isso, o gene da proteína C foi obtido de forma sintética e clonado em um vetor de expressão em bactérias, pET-28a(+). Para a expressão da proteína C recombinante foram utilizadas bactérias E. coli BL21(DE3) e testadas diferentes temperaturas após indução com IPTG. A proteína obtida foi purificada por cromatografia de afinidade e a amostra foi dialisada utilizando coluna de dessalinização. Após a purificação, a proteína recombinante foi submetida a uma associação in vitro com RNA, obtido através de transcrição in vitro . A eficiência de formação do complexo Proteína-RNA foi medida pela quantidade diferencial de RNA livre antes e após o procedimento por eletroforese em gel de agarose e pela análise através de imagens obtidas por microscopia eletrônica de transmissão. A entrega do complexo Proteína-RNA foi realizada de forma eficiente à célula alvo. Desta forma, de maneira geral, a proteína de capsídeo do vírus SFV é capaz de se associar in vitro com RNA auto replicativo, trazendo proteção e estabilidade ao mesmo, bem como realizar a entrega desse material à célula alvo, através da desmontagem da nucleocápside no interior da célula hospedeira. / Vaccination against viral and bacterial diseases has been one of the success stories of human and veterinary medicine. Genetic vaccines consist only of DNA (such as plasmids) or RNA (such as mRNA), which are delivered to target cells. This approach provides a significant advantage as these preparations generally have ease of genetic engineering, low cost, fast mass production, high stability and attractive safety profile. Unlike DNA vaccines, RNAbased vaccines are processed into the cytoplasm, excluding the need for entry into the cell nucleus. The Semliki Forest virus (SFV, Alphavirus, Togaviridae ) has a positive-strand and auto amplify RNA, protected in an icosahedral nucleocapsid, composed of viral RNA and the 267 amino acid capsid protein (C). The nucleocapsid contains 180 copies of protein C and is covered by a lipoprotein membrane containing the viral glycoproteins. In order to carry out the delivery of RNA molecules for immunization purposes, it is essential that the material is protected from the action of enzymes. Thus, the objective of this work was to express recombinant SFV C protein in E.coli, to associate it in vitro with auto replicative RNA, containing reporter gene and to deliver this complex to the target cell. For this, the protein C gene was synthesized and cloned into a bacterial expression vector, pET-28a (+). For expression of recombinant protein C, E. coli BL21 (DE3) bacteria were used and different temperatures tested after IPTG induction. The obtained protein was purified by affinity chromatography and the sample was dialyzed using desalting column. After purification, the recombinant protein was subjected to an in vitro association with RNA, obtained by in vitro transcription. The efficiency of formation of the Protein-RNA complex was measured by the differential amount of free RNA before and after the procedure by agarose gel electrophoresis and by the analysis through images obtained by transmission electron microscopy. Delivery of the Protein-RNA complex was efficiently performed on the target cell. Thus, in general, the SFV virus capsid protein is able to associate in vitro with auto amplify RNA, providing protection and stability to it, as well as delivering this material to the target cell, by disassembling the nucleocapsid in the interior of the host cell.

Auto amplify RNA

Capsid protein

Complexo Proteína-RNA

Protein-RNA complex

Proteína de capsídeo

RNA auto replicativo

Semliki Forest Virus

SFV

SFV

Vírus Semliki Forest

Diversity and Dynamics of Algal Viruses in the Bay of Quinte

Rozon, Robin

17 July 2013

To initiate algal virus research in the Bay of Quinte, three stations were sampled biweekly throughout 2011. By targeting algal virus DNA polymerase, major capsid protein genes (MCP), and a Microcystis aeruginosa cyanophage (Ma-LMM01) tail sheath protein gene, PCR amplification revealed diverse and unique Phycodnaviruses (viruses of eukaryotic algae) and cyanophage. When analysed statistically, patterns of virus abundance suggested that the seasonality of any one virus cannot be generalised to predict that of other viruses, even among closely related viruses. This study also demonstrated a strong relationship between algal virus abundance and host biomass. It was found that despite the apparent heterogeneity of virus abundance across the Bay, virus abundance patterns clustered by sampling date and geographic location. By providing evidence for diverse algal viruses with complex seasonality, this work highlights significant gaps in the current understanding of Bay of Quinte phytoplankton ecology.

Algal viruses

Bay of Quinte

Phycodnaviruses

DNA polymerase

major capsid protein gene

Sheath protein gene

Microcystis aeruginosa

freshwater

Lake Ontario

Cyanophage

abundance

seasonality

Algal bloom

Quantitative PCR

Chlorophyll a

0329

Diversity and Dynamics of Algal Viruses in the Bay of Quinte

Rozon, Robin

17 July 2013

To initiate algal virus research in the Bay of Quinte, three stations were sampled biweekly throughout 2011. By targeting algal virus DNA polymerase, major capsid protein genes (MCP), and a Microcystis aeruginosa cyanophage (Ma-LMM01) tail sheath protein gene, PCR amplification revealed diverse and unique Phycodnaviruses (viruses of eukaryotic algae) and cyanophage. When analysed statistically, patterns of virus abundance suggested that the seasonality of any one virus cannot be generalised to predict that of other viruses, even among closely related viruses. This study also demonstrated a strong relationship between algal virus abundance and host biomass. It was found that despite the apparent heterogeneity of virus abundance across the Bay, virus abundance patterns clustered by sampling date and geographic location. By providing evidence for diverse algal viruses with complex seasonality, this work highlights significant gaps in the current understanding of Bay of Quinte phytoplankton ecology.

Algal viruses

Bay of Quinte

Phycodnaviruses

DNA polymerase

major capsid protein gene

Sheath protein gene

Microcystis aeruginosa

freshwater

Lake Ontario

Cyanophage

abundance

seasonality

Algal bloom

Quantitative PCR

Chlorophyll a

0329