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1.
Giovanetti, M.; Slavov, S. N.; Fonseca, V.; Wilkinson, E.; Tegally, H.; Patané, J. S. L.; Viala, V. L.; San, E. J.; Rodrigues, E. S.; Santos, E. V.; Aburjaile, F.; Xavier, J.; Fritsch, H.; Adelino, T. E. R.; Pereira, F.; Leal, A.; Iani, F. C. M.; de Carvalho Pereira, G.; Vazquez, C.; Sanabria, G. M. E.; Oliveira, E. C.; Demarchi, L.; Croda, J.; Dos Santos Bezerra, R.; Paola Oliveira de Lima, L.; Martins, A. J.; Renata Dos Santos Barros, C.; Marqueze, E. C.; de Souza Todao Bernardino, J.; Moretti, D. B.; Brassaloti, R. A.; de Lello Rocha Campos Cassano, R.; Mariani, Pdsc, Kitajima, J. P.; Santos, B.; Proto-Siqueira, R.; Cantarelli, V. V.; Tosta, S.; Nardy, V. B.; Reboredo de Oliveira da Silva, L.; Gómez, M. K. A.; Lima, J. G.; Ribeiro, A. A.; Guimarães, N. R.; Watanabe, L. T.; Barbosa Da Silva, L.; da Silva Ferreira, R.; da Penha, M. P. F.; Ortega, M. J.; de la Fuente, A. G.; Villalba, S.; Torales, J.; Gamarra, M. L.; Aquino, C.; Figueredo, G. P. M.; Fava, W. S.; Motta-Castro, A. R. C.; Venturini, J.; do Vale Leone de Oliveira, S. M.; Gonçalves, C. C. M.; do Carmo Debur Rossa, M.; Becker, G. N.; Giacomini, M. P.; Marques, N. Q.; Riediger, I. N.; Raboni, S.; Mattoso, G.; Cataneo, A. D.; Zanluca, C.; Duarte Dos Santos, C. N.; Assato, P. A.; Allan da Silva da Costa, F.; Poleti, M. D.; Lesbon, J. C. C.; Mattos, E. C.; Banho, C. A.; Sacchetto, L.; Moraes, M. M.; Grotto, R. M. T.; Souza-Neto, J. A.; Nogueira, M. L.; Fukumasu, H.; Coutinho, L. L.; Calado, R. T.; Neto, R. M.; Bispo de Filippis, A. M.; Venancio da Cunha, R.; Freitas, C.; Peterka, C. R. L.; de Fátima Rangel Fernandes, C.; Navegantes, W.; do Carmo Said, R. F.; Campelo de, A. E. Melo C. F.; Almiron, M.; Lourenço, J.; de Oliveira, T.; Holmes, E. C.; Haddad, R.; Sampaio, S. C.; Elias, M. C.; Kashima, S.; Junior de Alcantara, L. C.; Covas, D. T..
Nat Microbiol ; 2022.
Article in English | PubMed | ID: covidwho-1991610

ABSTRACT

The high numbers of COVID-19 cases and deaths in Brazil have made Latin America an epicentre of the pandemic. SARS-CoV-2 established sustained transmission in Brazil early in the pandemic, but important gaps remain in our understanding of virus transmission dynamics at a national scale. We use 17,135 near-complete genomes sampled from 27 Brazilian states and bordering country Paraguay. From March to November 2020, we detected co-circulation of multiple viral lineages that were linked to multiple importations (predominantly from Europe). After November 2020, we detected large, local transmission clusters within the country. In the absence of effective restriction measures, the epidemic progressed, and in January 2021 there was emergence and onward spread, both within and abroad, of variants of concern and variants under monitoring, including Gamma (P.1) and Zeta (P.2). We also characterized a genomic overview of the epidemic in Paraguay and detected evidence of importation of SARS-CoV-2 ancestor lineages and variants of concern from Brazil. Our findings show that genomic surveillance in Brazil enabled assessment of the real-time spread of emerging SARS-CoV-2 variants.

2.
Lett Appl Microbiol ; 75(2): 396-400, 2022 Aug.
Article in English | MEDLINE | ID: covidwho-1861481

ABSTRACT

The Curtobacterium genus is a member of the family Microbacteriaceae, and Curtobacterium species are recognized as plant pathogens. The aim of this study was to investigate a dubious result of species identification for an infection located on a catheter tip of a patient with Covid-19. A strain isolated from a catheter tip sample, identified by VITEK® 2 as Cronobacter spp., was submitted to polyphasic analysis: Matrix-Assisted Laser Desorption Ionization-Time of Flight Mass Spectrometry (MALDI-TOF MS) using VITEK® MS, real-time polymerase chain reaction targeting dnaG gene, and 16S rRNA full gene Sanger sequencing analysis for confirmation. The strain presented negative result using qPCR and could not identified by MALDI-TOF MS. 16S rRNA full gene Sanger sequencing analysis identified the strain as Curtobacterium spp. The Gram-variable characteristic (Gram-negative instead of Gram-positive) of the isolated strain was the responsible for the misidentification by VITEK® 2 and VITEK® MS did not identify the strain. 16S rRNA full gene sequencing analysis identified the strain as Curtobacterium genus, but other complementary techniques are necessary to identify at species level.

3.
Giovanetti, M.; Slavov, S. N.; Fonseca, V.; Wilkinson, E.; Tegally, H.; Patané, J. S. L.; Viala, V. L.; San, J. E.; Rodrigues, E. S.; Vieira Santos, E.; Aburjaile, F.; Xavier, J.; Fritsch, H.; Ribeiro Adelino, T. E.; Pereira, F.; Leal, A.; Campos de Melo Iani, F.; de Carvalho Pereira, G.; Vazquez, C.; Mercedes Estigarribia Sanabria, G.; de Oliveira, E. C.; Demarchi, L.; Croda, J.; Dos Santos Bezerra, R.; Oliveira de Lima, L. P.; Martins, A. J.; Dos Santos Barros, C. R.; Marqueze, E. C.; de Souza Todao Bernardino, J.; Moretti, D. B.; Brassaloti, R. A.; de Lello Rocha Campos Cassano, R.; Drummond Sampaio Corrêa Mariani, P.; Kitajima, J. P.; Santos, B.; Proto-Siqueira, R.; Cantarelli, V. V.; Tosta, S.; Brandão Nardy, V.; Reboredo de Oliveira da Silva, L.; Astete Gómez, M. K.; Lima, J. G.; Ribeiro, A. A.; Guimarães, N. R.; Watanabe, L. T.; Barbosa Da Silva, L.; da Silva Ferreira, R.; MP, F. da Penha, Ortega, M. J.; Gómez de la Fuente, A.; Villalba, S.; Torales, J.; Gamarra, M. L.; Aquino, C.; Martínez Figueredo, G. P.; Fava, W. S.; Motta-Castro, A. R. C.; Venturini, J.; do Vale Leone de Oliveira, S. M.; Cavalheiro Maymone Gonçalves, C.; Debur Rossa, M. D. C.; Becker, G. N.; Presibella, M. M.; Marques, N. Q.; Riediger, I. N.; Raboni, S.; Coelho, G. M.; Cataneo, A. H. D.; Zanluca, C.; Dos Santos, C. N. D.; Assato, P. A.; Allan da Silva da Costa, F.; Poleti, M. D.; Chagas Lesbon, J. C.; Mattos, E. C.; Banho, C. A.; Sacchetto, L.; Moraes, M. M.; Tommasini Grotto, R. M.; Souza-Neto, J. A.; Nogueira, M. L.; Fukumasu, H.; Coutinho, L. L.; Calado, R. T.; Neto, R. M.; Bispo de Filippis, A. M.; Venancio da Cunha, R.; Freitas, C.; Leonel Peterka, C. R.; Rangel Fernandes, C. F.; de Araújo, W. N.; do Carmo Said, R. F.; Almiron, M.; Campelo de Albuquerque, E. Melo C. F.; Lourenço, J.; de Oliveira, T.; Holmes, E. C.; Haddad, R.; Sampaio, S. C.; Elias, M. C.; Kashima, S.; de Alcantara, L. C. J.; Covas, D. T..
PubMed; 2022.
Preprint in English | PubMed | ID: ppcovidwho-332259

ABSTRACT

Brazil has experienced some of the highest numbers of COVID-19 cases and deaths globally and from May 2021 made Latin America a pandemic epicenter. Although SARS-CoV-2 established sustained transmission in Brazil early in the pandemic, important gaps remain in our understanding of virus transmission dynamics at the national scale. Here, we describe the genomic epidemiology of SARS-CoV-2 using near-full genomes sampled from 27 Brazilian states and a bordering country - Paraguay. We show that the early stage of the pandemic in Brazil was characterised by the co-circulation of multiple viral lineages, linked to multiple importations predominantly from Europe, and subsequently characterized by large local transmission clusters. As the epidemic progressed under an absence of effective restriction measures, there was a local emergence and onward international spread of Variants of Concern (VOC) and Variants Under Monitoring (VUM), including Gamma (P.1) and Zeta (P.2). In addition, we provide a preliminary genomic overview of the epidemic in Paraguay, showing evidence of importation from Brazil. These data reinforce the usefulness and need for the implementation of widespread genomic surveillance in South America as a toolkit for pandemic monitoring that provides a means to follow the real-time spread of emerging SARS-CoV-2 variants with possible implications for public health and immunization strategies.

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