Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Outros Autores: | , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da FIOCRUZ (ARCA) |
| Texto Completo: | https://www.arca.fiocruz.br/handle/icict/47885 |
Resumo: | Universidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, Brasil / Marinha do Brasil. Hospital Naval Marcílio Dias. Instituto de Pesquisas Biomédicas. Laboratório de Biologia Molecular. Rio de Janeiro, RJ, Brasil. |
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Barroso, Shana Priscila CoutinhoSantos, Ana Clara Vicente dosSantos, Patrícia Souza dosCouceiro, José Nelson dos Santos SilvaFerreira, Davis FernandesNico, DirleiMorrot, AlexandreSilva, Jerson LimaOliveira, Andrea Cheble de2021-06-27T12:00:52Z2021-06-27T12:00:52Z2021BARROSO, Shana Priscila Coutinho et al. Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach. Access Microbiology, v. 3, 000220, 8 p, Apr. 2021.2516-8290https://www.arca.fiocruz.br/handle/icict/4788510.1099/acmi.0.000220engMicrobiology SocietyInativaçãoVírus da gripe aviáriaPressão hidrostáticaDesenvolvimento de vacinaAvian influenza virusesInactivationHydrostatic pressurePotential vaccine developmentInactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approachinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleUniversidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, Brasil / Marinha do Brasil. Hospital Naval Marcílio Dias. Instituto de Pesquisas Biomédicas. Laboratório de Biologia Molecular. Rio de Janeiro, RJ, Brasil.Universidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, BrasilUniversidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, BrasilUniversidade Federal do Rio de Janeiro. Instituto de Microbiologia Professor Paulo de Góes. Departamento de Virologia. Rio de Janeiro, RJ, Brasil.Universidade Federal do Rio de Janeiro. Instituto de Microbiologia Professor Paulo de Góes. Departamento de Virologia. Rio de Janeiro, RJ, Brasil.Universidade Federal do Rio de Janeiro. Instituto de Microbiologia Professor Paulo de Góes. Departamento de Virologia. Rio de Janeiro, RJ, Brasil.Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Imunoparasitologia. Rio de Janeiro, RJ, Brasil / Universidade Federal do Rio de Janeiro. Faculdade de Medicina, Departamento de Clínica Médica. Centro de Pesquisa em Tuberculose. Rio de Janeiro, RJ, Brasil.Universidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, BrasilUniversidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, BrasilVaccines are a recommended strategy for controlling influenza A infections in humans and animals. Here, we describe the effects of hydrostatic pressure on the structure, morphology and functional characteristics of avian influenza A H3N8 virus. The effect of hydrostatic pressure for 3h on H3N8 virus revealed that the particles were resistant to this condition, and the virus displayed only a discrete conformational change. We found that pressure of 3 kbar applied for 6h was able to inhibit haemag glutination and infectivity while virus replication was no longer observed, suggesting that full virus inactivation occurred at this point. However, the neuraminidase activity was not affected at this approach suggesting the maintenance of neutralizing anti body epitopes in this key antigen. Our data bring important information for the area of structural virology of enveloped particles and support the idea of applying pressure-induced inactivation as a tool for vaccine production.info:eu-repo/semantics/openAccessreponame:Repositório Institucional da FIOCRUZ (ARCA)instname:Fundação Oswaldo Cruz (FIOCRUZ)instacron:FIOCRUZLICENSElicense.txtlicense.txttext/plain; charset=utf-82991https://www.arca.fiocruz.br/bitstream/icict/47885/1/license.txt5a560609d32a3863062d77ff32785d58MD51ORIGINALAlexandreMorrot_ShanaBarroso_etal_IOC_2021.pdfAlexandreMorrot_ShanaBarroso_etal_IOC_2021.pdfapplication/pdf1391142https://www.arca.fiocruz.br/bitstream/icict/47885/2/AlexandreMorrot_ShanaBarroso_etal_IOC_2021.pdfda3b9da1164fab929389065588005410MD52TEXTAlexandreMorrot_ShanaBarroso_etal_IOC_2021.pdf.txtAlexandreMorrot_ShanaBarroso_etal_IOC_2021.pdf.txtExtracted 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| dc.title.pt_BR.fl_str_mv |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| title |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| spellingShingle |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach Barroso, Shana Priscila Coutinho Inativação Vírus da gripe aviária Pressão hidrostática Desenvolvimento de vacina Avian influenza viruses Inactivation Hydrostatic pressure Potential vaccine development |
| title_short |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| title_full |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| title_fullStr |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| title_full_unstemmed |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| title_sort |
Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach |
| author |
Barroso, Shana Priscila Coutinho |
| author_facet |
Barroso, Shana Priscila Coutinho Santos, Ana Clara Vicente dos Santos, Patrícia Souza dos Couceiro, José Nelson dos Santos Silva Ferreira, Davis Fernandes Nico, Dirlei Morrot, Alexandre Silva, Jerson Lima Oliveira, Andrea Cheble de |
| author_role |
author |
| author2 |
Santos, Ana Clara Vicente dos Santos, Patrícia Souza dos Couceiro, José Nelson dos Santos Silva Ferreira, Davis Fernandes Nico, Dirlei Morrot, Alexandre Silva, Jerson Lima Oliveira, Andrea Cheble de |
| author2_role |
author author author author author author author author |
| dc.contributor.author.fl_str_mv |
Barroso, Shana Priscila Coutinho Santos, Ana Clara Vicente dos Santos, Patrícia Souza dos Couceiro, José Nelson dos Santos Silva Ferreira, Davis Fernandes Nico, Dirlei Morrot, Alexandre Silva, Jerson Lima Oliveira, Andrea Cheble de |
| dc.subject.other.pt_BR.fl_str_mv |
Inativação Vírus da gripe aviária Pressão hidrostática Desenvolvimento de vacina |
| topic |
Inativação Vírus da gripe aviária Pressão hidrostática Desenvolvimento de vacina Avian influenza viruses Inactivation Hydrostatic pressure Potential vaccine development |
| dc.subject.en.pt_BR.fl_str_mv |
Avian influenza viruses Inactivation Hydrostatic pressure Potential vaccine development |
| description |
Universidade Federal do Rio de Janeiro. Instituto de Bioquímica Médica Leopoldo de Meis. Programa de Biologia Estrutural. Programa de Biologia Estrutural. Laboratório de Termodinâmica de Proteínas e Estruturas Virais Gregorio Weber. Rio de Janeiro, RJ, Brasil / Instituto Nacional de Ciência e Tecnologia de Biologia Estrutural e Bioimagem. Rj, Brasil / Marinha do Brasil. Hospital Naval Marcílio Dias. Instituto de Pesquisas Biomédicas. Laboratório de Biologia Molecular. Rio de Janeiro, RJ, Brasil. |
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2021 |
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2021-06-27T12:00:52Z |
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2021-06-27T12:00:52Z |
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2021 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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BARROSO, Shana Priscila Coutinho et al. Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach. Access Microbiology, v. 3, 000220, 8 p, Apr. 2021. |
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https://www.arca.fiocruz.br/handle/icict/47885 |
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2516-8290 |
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10.1099/acmi.0.000220 |
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BARROSO, Shana Priscila Coutinho et al. Inactivation of avian influenza viruses by hydrostatic pressure as a potential vaccine development approach. Access Microbiology, v. 3, 000220, 8 p, Apr. 2021. 2516-8290 10.1099/acmi.0.000220 |
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Microbiology Society |
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Microbiology Society |
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