Global ETD Search

11	Identification of the Influenza A nucleoprotein sequence that interacts with the viral polymerase / Identification of the NP sequence of Influenza A that interacts with the viral polymerase Marklund, Jesper Karl 15 January 2013 (has links) Influenza A is a negative stranded RNA virus with a segmented genome. Once the virus infects a cell it must replicate its full length viral genomic RNA (vRNA) through a positive sense complementary intermediate RNA (cRNA) as well as transcribe viral messenger RNA (mRNA) using the vRNA as a template. The regulation of whether the viral polymerase replicates the genome by synthesizing cRNA, or produces mRNA in order to make viral protein involves, the viral nucleoprotein (NP). We tried to find the sequence residues of NP that directly interact with the viral polymerase. We mutated to alanine several residues on NP that are surface exposed on recently solved crystal structures as well as those thought to be oriented toward the viral polymerase complex in cryo-EM studies. As a first screen, we tested these mutants in a mini-genome assay where the NP stimulation of the viral polymerase can be studied in transfected cells. Through this screen we found that the NP mutants that hindered its ability to stimulate polymerase activity the most were located in a loop between two alpha helixes in the head domain of NP located at residues 203 to 209. Specifically, the NP single mutants of R204, W207, and R208 were inactive in the mini-genome assay. Using RT-PCR we found that the cRNA to vRNA step of replication is severely inhibited by these mutations. Immunoprecipitation using transfected cells showed that the NP mutants lost the ability to bind all three polymerase subunits. This indicates that this loss of polymerase binding may be the reason the NP mutant fails to stimulate polymerase activity. To make sure that this loss of polymerase stimulation was not due to altering other functions of NP we made sure that the protein had proper cellular localization, oligomerization, and RNA binding abilities. Using immuniflourescence we found that mutant NP localized to the nucleus just like wild type. In order to test RNA binding and oligomerization we tested NP purified from a baculovirus expressing system. Using fluorescence polarization we found that NP binds single stranded RNA with similar affinity to wild type. Using gel filtration we found that mutant NP forms oligomers just like wild type. Using covariation analysis of how different positions in an amino acid alignment change relative to each other we predicted possible binding sites between NP and the three polymerase subunits PA, PB1 and PB2. Due to more complete crystal structure data we focused on the PA-NP interaction and found that covariation aided in finding binding sequence residues on PA but not NP. Another outcome of developing the covariation method was developing a program to view broad primary structure changes in large sequence alignments. This method has been informative in evaluating how amino acid positions in influenza have changed over time, as well as what defines specific residues as belonging to human or avian viruses. / text Influenza Nucleoprotein Polymerase Replication Transcription Virus Bioinformatics Mutual information NP PA PB2 PB1 Covariation
12	The Influence of 1,25-Dihydroxyvitamin D3 on the Cross-Priming of Lymphocytic Choriomeningitis Virus Nucleoprotein Kim, Julia 02 September 2011 (has links) Biologically active 1,25-dihydroxyvitamin D3 (1,25-(OH)2D3) binds the vitamin D receptor (VDR) to exert its effect on target cells. VDR expression is found in a number of immune cells including professional antigen-presenting cells such as dendritic cells. It has been found that the actions of 1,25-(OH)2D3 on the immune system are mainly immunosuppressive. The cross-presentation pathway allows for exogenously derived antigens to be presented by pAPCs on MHC-I molecules to CD8+ T cells. CD8+ T cell activation results in the expansion of epitope-specific T cell populations that confer host protection. These epitopes can be organized into an immunodominance hierarchy. Previous work demonstrated that introducing LCMV-NP via the cross-priming pathway significantly alters the immunodominance hierarchy of a subsequent LCMV infection. Building upon these observations, our study assessed the effects of LCMV-NP cross priming in the presence of a single dose of 1,25-(OH)2D3. Treatment with 1,25-(OH)2D3 was found to have biological effects in our model system. In vitro pAPCs were demonstrated to up-regulate IL-10 and CYP24A1 mRNA, in addition to the transactivation of cellular VDR, as demonstrated by a relocalization to the nuclear region. Mice treated with 1,25-(OH)2D3 were found to produce up-regulated IL-10 and CYP24A1 transcripts. Expression of VDR was increased at both the transcript and protein level. Our results demonstrate that a single dose of 1,25-(OH)2D3 does not affect the cross-priming pathway in this system. Treatment with 1,25-(OH)2D3 did not influence the ability of differentiated pAPCs to phagocytose or cross-present exogenous antigen to epitope-specific CD8+ T cells. Furthermore, 1,25-(OH)2D3 did not alter cross-priming or the establishment of the LCMV immunodominance hierarchy in vivo. By confirming that 1,25-(OH)2D3 does not suppress cross-priming in our model, our study helps to expand the understanding of the immunomodulatory role of exogenous 1,25-(OH)2D3 on the outcome of virus infection. Collectively, our data supports the observation that the role of 1,25-(OH)2D3 in the immune system is not always associated with suppressive effects. / Thesis (Master, Microbiology & Immunology) -- Queen's University, 2011-08-29 14:53:18.766 1,25-Dihydroxyvitamin D3 Cross presentation 1,25-(OH)2D3 Cross priming
13	Clonagem e expressão do gene da nucleoproteína (np) do vírus da doença de newcastle em Escherichia coli para aplicação no imunodiagnóstico Silva, Ketherson Rodrigues [UNESP] 28 February 2011 (has links) (PDF) Made available in DSpace on 2014-06-11T19:27:57Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-02-28Bitstream added on 2014-06-13T19:56:58Z : No. of bitstreams: 1 silva_kr_me_jabo.pdf: 746958 bytes, checksum: 651e28fc6f5b0bad0768768aa6ff7a22 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A nucleoproteina do vírus da doença de Newcastle (VDN) é um dos componentes antigênicos ideais para fazer o imunodiagnóstico da DN, por ser mais conservada e possuir uma elevada imunogenicidade. A sequência completa do gene da nucleoproteína (NP) (1470 pb) da estirpe La Sota do VDN foi amplificada, nesse estudo, por RT-PCR e submetida a clonagem no vetor de expressão em Escherichia coli pETSUMO (Invitrogen). A proteína NP foi expressa sob a forma de uma proteína recombinante de fusão contendo o peptídeo SUMO e a sequência de poli-histidina, em seguida foi purificada em resina de níquel-agarose e caracterizada por SDSPAGE e Western-blotting, apresentando um peso molecular de cerca de 66kDa e reatividade com anticorpos policlonais de galinhas hiperimunizadas com esse mesmo vírus. Foi então desenvolvido um método indireto de ELISA com essa proteína (NPVDN- ELISA) para ser aplicado na detecção de anticorpos anti-virais específicos. O NP-VDN-ELISA revelou ser capaz de diferenciar amostras de soros positivos para o VDN das amostras de soros negativos e, na comparação dos resultados obtidos na análise de 125 soros de campo pelo NP-VDN-ELISA com os do teste de Inibição da Hemaglutinação (HI), foi encontrado um coeficiente de correlação significante entre estes métodos (r = 0,8345), bem como elevadas sensibilidade (89,3%), acurácia (90,4%) e especificidade (95,5%). Concluindo, a proteína NP recombinante expressa pelo sistema pET SUMO – E. coli compartilha os principais epítopos para interagir com anticorpos de galinhas produzidos contra a proteína NP do VDN, tendo, portanto, um bom potencial de ser aplicada de forma bem sucedida e com vantagens no teste de ELISA para realizar de forma mais rápida e prática, o imunodiagnóstico da DN de um maior número de amostras séricas de galinhas / The nucleocapsid protein (NP) of Newcastle Disease Virus (NDV), is a preferred choice to develop a serologic assay on account of highly conserved sequences, and high immunogenicity. The whole open-reading-frame (orf) of NP gene from LaSota strain of NDV was amplified by RT-PCR and cloned in pETSUMO vector (Invitrogen) and Escherichia coli as cellular host. The NP protein was expressed as a fusion recombinant protein containing SUMO peptide and poly-histidine tags. This protein was easily purified in nickel-agarose resin, and characterized by SDS-PAGE and Western-blotting, showing a molecular weight of approximately 66 kDa and reactivity with polyclonal antibodies from NDV hiperimmunized chickens. The recombinant NP protein was used as antigen to develop an indirect ELISA (NP-NDVELISA) for the detection chicken anti-NDV antibodies. The capability of the recombinant NP protein to differentiate positive from normal chicken sera was evident in NP-NDV-ELISA, and by comparing this ELISA with haemagglutination-inhibition test (HI) a high and significant correlation with the haemagglutination-inhibition test (r = 0,8345), as well as high sensitivity (89,3%), specificity (95,5%) and accuracy (90,4%) were obtained. In conclusion the results indicated that the recombinant NP protein shared the main epitopes with the homologous viral protein and has a great potential to be advantageously used in the ELISA for the analysis of large number of samples in the DN immunodiagnosis Nucleoproteinas Newcastle, Doença de Teste imunoenzimático Clonagem e expressão Cloning and expression Recombinant nucleoprotein Newcastle disease virus ELISA Antibodies
14	Análise filogenética de amostras de vírus da raiva procedentes de herbívoros da região fronteiriça entre o nordeste do Estado de São Paulo e o Sul de Minas Gerais, Brasil no período de 2000-2009 / Phylogenetic analysis of rabies virus isolates from herbivores from border region between northeast of São Paulo State and South of Minas Gerais, Brazil, from 2000 to 2009 Andrea Isabel Estevez Garcia 14 August 2013 (has links) No Brasil a raiva dissemina-se de maneira insidiosa nos herbívoros domésticos, produzindo perdas à indústria pecuária. No estado de São Paulo, a última epizootia registrada ocorreu entre os anos 1997-2002, acometendo bovinos e equinos. Este estudo examinou a possível relação de alguns casos detectados no sul de Minas Gerais no período 2000 a 2009 com o foco paulista citado, mediante análise filogenética de segmentos do gene da glicoproteína (540 nucleotídeos) e nucleoproteína (416 nt) viral, usando o algoritmo de Neighbor-joining, modelo evolutivo Kimura 2- parâmetros com 1000 replicações, considerando sequências de isolados procedentes de diferentes regiões do interior paulista e do Brasil, tomadas do GenBank. Foi proposta uma análise geográfica mediante o programa ArcGis, localizando as coordenadas geográficas dos municípios de origem dos casos sobre mapas de relevo, bacias hidrográficas e distribuição de biomas. A análise filogenética dos dois genes estudados sugeriu que os focos mineiros podem ter a mesma origem genética da última epizootia paulista de raiva em herbívoros ocorrida entre 1997 e 2002. A análise filogenética baseada na nucleoproteína mostrou um maior nível de detalhamento sugerindo a ocorrência de diferentes eventos e/ou centros de dispersão de raiva em herbívoros na área de estudo. A análise geográfica insinuou que os casos aconteceram nas porções menos elevadas da Serra da Mantiqueira, na área de Mata Atlântica e em proximidades das bacias dos rios Piracicaba/Jaguarí, Paranaíba do Sul, Grande, Pardo e Mogi-Guaçu. / Bovine rabies is still spreading insidiously in Brazil, producing economic losses to livestock industry. A remarkable epizootics took place in São Paulo state between 1997 and 2002, affecting bovine and equines. This research was intended to examine genetic relations among some rabies outbreaks in Minas Gerais (MG), during 2000 and 2009 with São Paulo epizootics by phylogenetic analysis based on glycoprotein (540 nucleotides) and nucleoprotein (416 nt) genes partial sequences using Neighbor- joining algorithm, Kimura 2-parameters model, with 1000 bootstrap replications, considering sequences from different regions of São Paulo State (SP) and Brazil from GenBank. A geographic analysis was proposed, plotting geographic coordinates of municipalities with rabies cases on topographic, hydrographic and biome maps using ArcGis software. Phylogenetic analysis for both genes suggested that cases from MG can have the same genetic origin of SP epizootics. Phylogenetic analysis based on nucleoprotein gene showed a richer level of detailing than glycoprotein gene, suggesting different events and/or dispersion centers of livestock rabies in the studied area. Geographic analysis proposed that MG cases occurred at less elevated portions of Serra da Mantiqueira mountains in the area of Atlantic forest, near Piracicaba/Jaguarí, Paranaíba do Sul, Grande, Pardo and Mogi-Guaçu rivers. análise filogenética bovinos glicoproteína nucleoproteína raiva bovina Desmodus rotundus bovine rabies glycoprotein nucleoprotein phylogenetic analysis
15	Montagem de um pseudo-hantavírus quimera, contendo a nucleoproteína do vírus Araraquara e as glicoproteínas do vírus Andes, em sistema baculovírus / Assembly of a chimeric hantavirus-like particle, containing the Araraquara nucleoprotein and the Andes glycoproteins, expressed in baculovirus system Fernanda Perez Yeda 22 February 2010 (has links) Os hantavírus, membros da família Bunyaviridae, são os agentes infecciosos responsáveis pela Febre Hemorrágica com Síndrome Renal e pela Síndrome Cardiopulmonar por Hantavírus. São vírus com genoma constituído por três segmentos de RNA fita simples, de polaridade negativa, designados como S, M e L, que codificam, respectivamente, a nucleoproteína, as glicoproteínas G1 e G2 e a RNA polimerase dependente de RNA. Com o objetivo de estudar a montagem de pseudopartículas quiméricas de hantavírus, a proteína N do vírus Araraquara e as glicoproteínas G1 e G2 do vírus Andes foram expressas em sistema baculovírus. A microscopia confocal mostrou a colocalização das proteínas G1 e G2 com a proteína N. Pelos ensaios de imunoprecipitação e de centrifugação em gradiente de sacarose, foi observada a interação entre as proteínas N, G1 e G2. Nas análises por microscopia eletrônica de transmissão foi observada a montagem do pseudo-hantavírus quimera, com morfologia semelhante ao do vírion. O pseudo-hantavírus quimera obtido neste estudo poderá, no futuro, ser utilizado em estudos imunológicos, estruturais e morfológicos. / Hantaviruses, members of the Bunyaviridae family, are the infectious agents responsible for Hemorrhagic Fever with Renal Syndrome and the Hantavirus Cardiopulmonary Syndrome. The viral genome is composed by three segments of single-stranded negative-sense RNA, designated as S, M and L, which encode, respectively, the nucleoprotein, the G1 and G2 glycoproteins, and the RNA-dependent RNA polymerase. In order to study the assembly of a chimeric hantavirus-like particle, the Araraquara nucleoprotein and the Andes glycoproteins were expressed in a baculovirus system. Confocal microscopy showed the colocalization of G1 and G2 proteins with the N protein. Immunoprecipitation assay and sucrose density gradient showed the interaction among N, G1 and G2 proteins. The transmission electron microscopy showed the hantavirus-like particle with the same morphology of the virion. The chimeric hantavirus-like particle produced in this study could be used, in the future, in immunological, structural and morphological studies. Expressão de proteínas Glicoproteínas Nucleoproteína Proteínas Sistema baculovírus Vírus Baculovirus system Glycoprotein Nucleoprotein Protein Protein expression Virus
16	Etude génomique et structurale de virus Toscana (TOSV) / Genomic and structural study of Toscana virus Baklouti, Amal 12 December 2016 (has links) La première partie de mon travail a consisté (i) en une étude génomique des souches de TOSV avec séquençage de 10 nouvelles souches afin i) d’enrichir les données disponibles dans Genbank (au début de ce travail, 6 séquences complètes); (ii) d’utiliser les 16 séquences complètes pour définir et évaluer le premier système de typage par technique de RT-q PCR en temps réel afin de discriminer les souches de LA et de LB. Dans la deuxième partie de ce projet, on s’est intéressée à des études structurales et fonctionnelles de la nucléoproteine (N) de TOSV afin d’élucider le mécanisme d’encapsidation d’ARN virale. La N est une protéine de 28 KD, sont rôle majeur est l’encapsidation de l’ARN génomique et sert en tant que co-facteur de la transciption/replication de TOSV. Les études crystallographique de la protéine N , du complexe protéique (N-ARN) ont été déterminé par Olal D et al 2014 au moment que nous avons obtenu la diffraction de crystal de la N sans ARN à 3,7 Å (code PDB: 5FVA). Ces études montrent la protéine N ainsi le complexe (N-ARN) en forme d’un anneau hexamèrique fermé alors encapside l'ARN dans une organisation filamenteux. Nous avons donc décidé de combiner ces résultats avec des études structurales complémentaires en solution , telles que la microscopie électronique (EM) et des études de « Diffusion des rayons X aux petits angles »(SAXS) pour de proposer un modèle décrivant correctement le mécanisme d'encapsidation en solution . Le protéine N se comporte principalement en pentamère déformé et ouvert, qui met en lumière la façon dont nucléoprotéine peut être organisée en filaments. / The first part of my work consisted (i) of genomic sequencing of 10 TOSV strains to increase the total number of complete sequences (at the outset, 6 complete sequences were accessible in Genbank). (ii) to use the 16 sequences to design and evaluated the first lineage-specific real-time RT-PCR assay (Lisp-TOSV) to discriminate between strains of lineages A and B Complete sequencing of the 10 strains was achieved. The second part of this project was dedicated for structural and functional studies of the TOSV N protein in order to decipher viral RNA encapsidation. TOSV Nucleoprotein (N) is a protein of 28 KD, is encapsidating the viral RNA genome and serves as a co-factor the RNA trancription/replication. The crystal structures of TOSV N protein , and the complex N-RNA were already determined (Olal D and al; 2014) while we just obtained diffracting crystal of the N free RNA at 3,7 Å (PDB code : 5FVA ). Crystallographic structures show an hexameric rings whereas N encapsidates the RNA in a filamentous organization. We therefore decided to combine these results with complementary studies, such as electron microscopy (EM) and samll angle X-ray scattering to build a low resolution structure model in solution describing properly the encapsidation mechanism. The N behaves mainly as an opened, deformed pentamer that shed light on how the N can be organized in filaments. Virus Toscana Cristallographie Biochimie Biologie structurale Nucléoprotéine Toscana virus Crystallogprahy Biochimic studies Nucleoprotein
17	Force et couple dans les pinces magnétiques : paysage énergétique de la protéine hRad51 sur ADN double-brin / Force and torque in magnetic tweezers : energy landscape of the protein hRad51 on double-stranded DNA Atwell, Scott 26 September 2014 (has links) Hautement conservé, de la bactérie jusqu'à l’Homme, la recombinaison homologue est indispensable à la survie de tout organisme vivant. Chez l’humain, la protéine hRad51 (human Rad51) y joue un rôle clé en s’autoassemblant au site de cassure sur les extrémités simple-brin d’une molécule d’ADN endommagée pour former le filament nucléoprotéique. Ce filament est capable à lui seul d’effectuer la plupart des opérations nécessaires au bon déroulement de la recombinaison homologue; il va permettre la reconnaissance d’homologie, l’appariement des séquences homologues et l’invasion de brins requise pour la synthèse de l’ADN manquant.La recombinaison homologue est un processus complexe impliquant de multiples partenaires. Pour mieux comprendre le rôle du filament nucléoprotéique au sein de la réaction, on se propose d’étudier ce dernier en l’absence de tout partenaire. Plus précisément, on observe le comportement mécanique de filaments hRad51-ADNdb en fonction des conditions chimiques. La formation du filament nucléoprotéique modifie la conformation de l’ADN sur lequel il s’assemble, l’allongeant de 50% et le déroulant de 43% dans le cas d’une molécule double-brin. Les pinces magnétiques sont un outil permettant de contrôler la force et la torsion appliquées à une unique molécule d’ADN double-brin (ADNdb), elles sont donc l’outil idéal pour sonder les propriétés mécaniques de filaments nucléoprotéiques. Le système des pinces magnétiques a été modifié afin de mesurer des paramètres mécaniques précédemment inaccessibles tel que le couple ressenti ou exercé par le filament. Le but de cette thèse a été d’étudier les propriétés mécano-chimiques des filaments nucléoprotéiques tout en essayant de tracer le paysage énergétique qui régit les transitions de ces systèmes. / Highly conserved throughout the species, homologous recombination is crucial to the survival of any living organism. In humans, the hRad51 protein (human Rad51) plays a key role by self-assembling at the break site on the single stranded extremities of damaged DNA molecules thus forming the nucleoprotein filament. This filament is able by itself to accomplish most of the necessary operations of homologous recombination; it allows the homology search, the pairing of the homologous sequences and the strand exchange.Homologous recombination is a complex process involving many partners. In order to better understand the role of the nucleoprotein filament in this process, we propose to study it in the absence of any partners. We will focus on the study of the mechanical properties of hRad51-dsDNA filaments as a function of chemical conditions. The formation of the nucleoprotein filament modifies the conformation of the DNA molecule on which it assembles, stretching it by 50% and unwinding it by 43% in the case of a double stranded DNA. The magnetic tweezers are a tool allowing the control of the force and torsion applied to a single dsDNA molecule; they are therefore the ideal tool to probe the mechanical properties of nucleoprotein filaments. We modified the magnetic tweezers as to allow the measurement of previously inaccessible mechanical parameters such as the torque applied or felt by the filament. The goal of this thesis has been to study the mechano-chemical properties of nucleoprotein filaments while drawing the energy landscape that governs the various transitions of these systems. HRad51 Recombinaison homologue Pinces magnétiques Filaments nucléoprotéiques Mesure de couple Molécule unique Homologous recombination Nucleoprotein filament 571.4
18	High inter-individual diversity of point mutations, insertions, and deletions in human influenza virus nucleoprotein-specific memory B cells Reiche, Sven, Dwai, Yamen, Bussmann, Bianca M., Horn, Susanne, Sieg, Michael, Jassoy, Christian January 2015 (has links) The diversity of virus-specific antibodies and of B cells among different individuals is unknown. Using single-cell cloning of antibody genes, we generated recombinant human monoclonal antibodies from influenza nucleoprotein-specific memory B cells in four adult humans with and without preceding influenza vaccination. We examined the diversity of the antibody repertoires and found that NP-specific B cells used numerous immunoglobulin genes. The heavy chains (HCs) originated from 26 and the kappa light chains (LCs) from 19 different germ line genes. Matching HC and LC chains gave rise to 43 genetically distinct antibodies that bound influenza NP. The median lengths of the CDR3 of the HC, kappa and lambda LC were 14, 9 and 11 amino acids, respectively. We identified changes at 13.6% of the amino acid positions in the V gene of the antibody heavy chain, at 8.4 % in the kappa and at 10.6 % in the lambda V gene. We identified somatic insertions or deletions in 8.1% of the variable genes. We also found several small groups of clonal relatives that were highly diversified. Our findings demonstrate broadly diverse memory B cell repertoires for the influenza nucleoprotein. We found extensive variation within individuals with a high number of point mutations, insertions, and deletions, and extensive clonal diversification. Thus, structurally conserved proteins can elicit broadly diverse and highly mutated B-cell responses. info:eu-repo/classification/ddc/310 ddc:310
19	SARS-CoV-2 Specific Memory T Cell Epitopes Identified in COVID-19-Recovered Subjects Zhao, Juan, Wang, Ling, Schank, Madison, Dang, Xindi, Lu, Zeyuan, Cao, Dechao, Khanal, Sushant, Nguyen, Lam N., Nguyen, Lam N.T., Zhang, Jinyu, Zhang, Yi, Adkins, James L., Baird, Evan M., Wu, Xiao Y., Ning, Shunbin, El Gazzar, Mohamed, Moorman, Jonathan P., Yao, Zhi Q. 15 October 2021 (has links) The COVID-19 pandemic caused by SARS-CoV-2 infection poses a serious threat to public health. An explicit investigation of COVID-19 immune responses, particularly the host immunity in recovered subjects, will lay a foundation for the rational design of therapeutics and/or vaccines against future coronaviral outbreaks. Here, we examined virus-specific T cell responses and identified T cell epitopes using peptides spanning SARS-CoV-2 structural proteins. These peptides were used to stimulate peripheral blood mononuclear cells (PBMCs) derived from COVID-19-recovered subjects, followed by an analysis of IFN-γ-secreting T cells by enzyme-linked immunosorbent spot (ELISpot). We also evaluated virus-specific CD4 or CD8 T cell activation by flow cytometry assay. By screening 52 matrix pools (comprised of 315 peptides) of the spike (S) glycoprotein and 21 matrix pools (comprised of 102 peptides) spanning the nucleocapsid (N) protein, we identified 28 peptides from S protein and 5 peptides from N protein as immunodominant epitopes. The immunogenicity of these epitopes was confirmed by a second ELISpot using single peptide stimulation in memory T cells, and they were mapped by HLA restrictions. Notably, SARS-CoV-2 specific T cell responses positively correlated with B cell IgG and neutralizing antibody responses to the receptor-binding domain (RBD) of the S protein. Our results demonstrate that defined levels of SARS-CoV-2 specific T cell responses are generated in some, but not all, COVID-19-recovered subjects, fostering hope for the protection of a proportion of COVID-19-exposed individuals against reinfection. These results also suggest that these virus-specific T cell responses may induce protective immunity in unexposed individuals upon vaccination, using vaccines generated based on the immune epitopes identified in this study. However, SARS-CoV-2 S and N peptides are not potently immunogenic, and none of the single peptides could universally induce robust T cell responses, suggesting the necessity of using a multi-epitope strategy for COVID-19 vaccine design. COVID-19 epitope mapping nucleoprotein SARS-CoV-2 s+CK36pike glycoprotein T cells Internal Medicine
20	The Borna disease virus (BoDV) 2 nucleoprotein is a conspecific protein that enhances BoDV-1 RNA-dependent RNA polymerase activity / ボルナ病ウイルス2型のヌクレオプロテインはボルナ病ウイルス1型のRNA依存性RNAポリメラーゼ活性を高める同種のタンパク質である Kanda, Takehiro 23 March 2022 (has links) 京都大学 / 新制・課程博士 / 博士(医学) / 甲第23786号 / 医博第4832号 / 新制\|\|医\|\|1057(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授小柳義夫, 教授髙折晃史, 教授齊藤博英 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM Borna disease virus nucleoprotein RNA-dependent RNA polymerase Virus vector Reverse genetics 490

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