Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil

A previous study demonstrates that most of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) Brazilian strains fell in three local clades that were introduced from Europe around late February 2020. Here we investigated in more detail the origin of the major and most widely disseminated SA...

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Autores principales: Resende, Paola Cristina, Delatorre, Edson, Gräf, Tiago, Mir, Daiana, Motta, Fernando Couto, Appolinario, Luciana Reis, da Paixão, Anna Carolina Dias, Mendonça, Ana Carolina da Fonseca, Ogrzewalska, Maria, Caetano, Braulia, Wallau, Gabriel Luz, Docena, Cássia, dos Santos, Mirleide Cordeiro, de Almeida Ferreira, Jessylene, Sousa Junior, Edivaldo Costa, da Silva, Sandro Patroca, Fernandes, Sandra Bianchini, Vianna, Lucas Alves, Souza, Larissa da Costa, Ferro, Jean F. G., Nardy, Vanessa B., Santos, Cliomar A., Riediger, Irina, do Carmo Debur, Maria, Croda, Júlio, Oliveira, Wanderson K., Abreu, André, Bello, Gonzalo, Siqueira, Marilda M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7925893/
https://www.ncbi.nlm.nih.gov/pubmed/33679622
http://dx.doi.org/10.3389/fmicb.2020.615280
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author Resende, Paola Cristina
Delatorre, Edson
Gräf, Tiago
Mir, Daiana
Motta, Fernando Couto
Appolinario, Luciana Reis
da Paixão, Anna Carolina Dias
Mendonça, Ana Carolina da Fonseca
Ogrzewalska, Maria
Caetano, Braulia
Wallau, Gabriel Luz
Docena, Cássia
dos Santos, Mirleide Cordeiro
de Almeida Ferreira, Jessylene
Sousa Junior, Edivaldo Costa
da Silva, Sandro Patroca
Fernandes, Sandra Bianchini
Vianna, Lucas Alves
Souza, Larissa da Costa
Ferro, Jean F. G.
Nardy, Vanessa B.
Santos, Cliomar A.
Riediger, Irina
do Carmo Debur, Maria
Croda, Júlio
Oliveira, Wanderson K.
Abreu, André
Bello, Gonzalo
Siqueira, Marilda M.
author_facet Resende, Paola Cristina
Delatorre, Edson
Gräf, Tiago
Mir, Daiana
Motta, Fernando Couto
Appolinario, Luciana Reis
da Paixão, Anna Carolina Dias
Mendonça, Ana Carolina da Fonseca
Ogrzewalska, Maria
Caetano, Braulia
Wallau, Gabriel Luz
Docena, Cássia
dos Santos, Mirleide Cordeiro
de Almeida Ferreira, Jessylene
Sousa Junior, Edivaldo Costa
da Silva, Sandro Patroca
Fernandes, Sandra Bianchini
Vianna, Lucas Alves
Souza, Larissa da Costa
Ferro, Jean F. G.
Nardy, Vanessa B.
Santos, Cliomar A.
Riediger, Irina
do Carmo Debur, Maria
Croda, Júlio
Oliveira, Wanderson K.
Abreu, André
Bello, Gonzalo
Siqueira, Marilda M.
author_sort Resende, Paola Cristina
collection PubMed
description A previous study demonstrates that most of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) Brazilian strains fell in three local clades that were introduced from Europe around late February 2020. Here we investigated in more detail the origin of the major and most widely disseminated SARS-CoV-2 Brazilian lineage B.1.1.33. We recovered 190 whole viral genomes collected from 13 Brazilian states from February 29 to April 31, 2020 and combined them with other B.1.1 genomes collected globally. Our genomic survey confirms that lineage B.1.1.33 is responsible for a variable fraction of the community viral transmissions in Brazilian states, ranging from 2% of all SARS-CoV-2 genomes from Pernambuco to 80% of those from Rio de Janeiro. We detected a moderate prevalence (5–18%) of lineage B.1.1.33 in some South American countries and a very low prevalence (<1%) in North America, Europe, and Oceania. Our study reveals that lineage B.1.1.33 evolved from an ancestral clade, here designated B.1.1.33-like, that carries one of the two B.1.1.33 synapomorphic mutations. The B.1.1.33-like lineage may have been introduced from Europe or arose in Brazil in early February 2020 and a few weeks later gave origin to the lineage B.1.1.33. These SARS-CoV-2 lineages probably circulated during February 2020 and reached all Brazilian regions and multiple countries around the world by mid-March, before the implementation of air travel restrictions in Brazil. Our phylodynamic analysis also indicates that public health interventions were partially effective to control the expansion of lineage B.1.1.33 in Rio de Janeiro because its median effective reproductive number (R(e)) was drastically reduced by about 66% during March 2020, but failed to bring it to below one. Continuous genomic surveillance of lineage B.1.1.33 might provide valuable information about epidemic dynamics and the effectiveness of public health interventions in some Brazilian states.
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spelling pubmed-79258932021-03-04 Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil Resende, Paola Cristina Delatorre, Edson Gräf, Tiago Mir, Daiana Motta, Fernando Couto Appolinario, Luciana Reis da Paixão, Anna Carolina Dias Mendonça, Ana Carolina da Fonseca Ogrzewalska, Maria Caetano, Braulia Wallau, Gabriel Luz Docena, Cássia dos Santos, Mirleide Cordeiro de Almeida Ferreira, Jessylene Sousa Junior, Edivaldo Costa da Silva, Sandro Patroca Fernandes, Sandra Bianchini Vianna, Lucas Alves Souza, Larissa da Costa Ferro, Jean F. G. Nardy, Vanessa B. Santos, Cliomar A. Riediger, Irina do Carmo Debur, Maria Croda, Júlio Oliveira, Wanderson K. Abreu, André Bello, Gonzalo Siqueira, Marilda M. Front Microbiol Microbiology A previous study demonstrates that most of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) Brazilian strains fell in three local clades that were introduced from Europe around late February 2020. Here we investigated in more detail the origin of the major and most widely disseminated SARS-CoV-2 Brazilian lineage B.1.1.33. We recovered 190 whole viral genomes collected from 13 Brazilian states from February 29 to April 31, 2020 and combined them with other B.1.1 genomes collected globally. Our genomic survey confirms that lineage B.1.1.33 is responsible for a variable fraction of the community viral transmissions in Brazilian states, ranging from 2% of all SARS-CoV-2 genomes from Pernambuco to 80% of those from Rio de Janeiro. We detected a moderate prevalence (5–18%) of lineage B.1.1.33 in some South American countries and a very low prevalence (<1%) in North America, Europe, and Oceania. Our study reveals that lineage B.1.1.33 evolved from an ancestral clade, here designated B.1.1.33-like, that carries one of the two B.1.1.33 synapomorphic mutations. The B.1.1.33-like lineage may have been introduced from Europe or arose in Brazil in early February 2020 and a few weeks later gave origin to the lineage B.1.1.33. These SARS-CoV-2 lineages probably circulated during February 2020 and reached all Brazilian regions and multiple countries around the world by mid-March, before the implementation of air travel restrictions in Brazil. Our phylodynamic analysis also indicates that public health interventions were partially effective to control the expansion of lineage B.1.1.33 in Rio de Janeiro because its median effective reproductive number (R(e)) was drastically reduced by about 66% during March 2020, but failed to bring it to below one. Continuous genomic surveillance of lineage B.1.1.33 might provide valuable information about epidemic dynamics and the effectiveness of public health interventions in some Brazilian states. Frontiers Media S.A. 2021-02-17 /pmc/articles/PMC7925893/ /pubmed/33679622 http://dx.doi.org/10.3389/fmicb.2020.615280 Text en Copyright © 2021 Resende, Delatorre, Gräf, Mir, Motta, Appolinario, Paixão, Mendonça, Ogrzewalska, Caetano, Wallau, Docena, Santos, de Almeida Ferreira, Sousa Junior, Silva, Fernandes, Vianna, Souza, Ferro, Nardy, Santos, Riediger, do Carmo Debur, Croda, Oliveira, Abreu, Bello and Siqueira. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Resende, Paola Cristina
Delatorre, Edson
Gräf, Tiago
Mir, Daiana
Motta, Fernando Couto
Appolinario, Luciana Reis
da Paixão, Anna Carolina Dias
Mendonça, Ana Carolina da Fonseca
Ogrzewalska, Maria
Caetano, Braulia
Wallau, Gabriel Luz
Docena, Cássia
dos Santos, Mirleide Cordeiro
de Almeida Ferreira, Jessylene
Sousa Junior, Edivaldo Costa
da Silva, Sandro Patroca
Fernandes, Sandra Bianchini
Vianna, Lucas Alves
Souza, Larissa da Costa
Ferro, Jean F. G.
Nardy, Vanessa B.
Santos, Cliomar A.
Riediger, Irina
do Carmo Debur, Maria
Croda, Júlio
Oliveira, Wanderson K.
Abreu, André
Bello, Gonzalo
Siqueira, Marilda M.
Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil
title Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil
title_full Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil
title_fullStr Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil
title_full_unstemmed Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil
title_short Evolutionary Dynamics and Dissemination Pattern of the SARS-CoV-2 Lineage B.1.1.33 During the Early Pandemic Phase in Brazil
title_sort evolutionary dynamics and dissemination pattern of the sars-cov-2 lineage b.1.1.33 during the early pandemic phase in brazil
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7925893/
https://www.ncbi.nlm.nih.gov/pubmed/33679622
http://dx.doi.org/10.3389/fmicb.2020.615280
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