Gabriela Betella Cybis’s research while affiliated with Federal University of Rio Grande do Sul and other places

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Publications (2)


Intense P.1 (Gamma) diversification followed by rapid Delta substitution in Southern Brazil: a SARS-CoV-2 Genomic Epidemiology study
  • Article

October 2023

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26 Reads

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1 Citation

Microbes and Infection

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Gabriela Betella Cybis

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Luiz Felipe Valter de Oliveira

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[...]

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The analyses of genetic traits, dispersion patterns and phylogenomics are essential for understanding the evolutionary forces driving SARS-CoV-2 viruses in these three years of COVID-19 pandemics. Brazil is one of the most affected countries in the world and not sufficient genomic studies have been performed. The emergence of P.1 lineage led to one of the most serious public health crises on record. Our study presents the genomic sequencing and characterization of 412 samples from Rio Grande do Sul state, in the Brazilian Southern region, during Gamma and Delta epidemic waves, in 2021. Additionally, molecular evolution tests were performed to identify positively selected sites in Brazil between 2020 and 2022, as well as offer some evolutionary perspective about the maintenance of multiple spike mutations in Omicron lineages. Genomic epidemiology analysis has indicated an intense P.1 (Gamma) diversification followed by rapid Delta substitution in Southern Brazil.


Figure 1. Mutations of the SARS-CoV-2 genomes from the RS state, Southern Brazil sampled in March 2021. (A) Genome map for the 56 genomes sequenced. Nucleotide substitutions are colored in red and blank regions represent low sequencing coverage. (B) Frequency of SNPs per SARS-CoV-2 genome position along the 56 genomes. These mutations are corresponding to the red lines in (A), and only missense substitutions represented by >10 sequences have their respective amino acid changes indicated above the bars. Main Open Reading Frames (ORFs) and SARS-CoV-2 proteins are indicated at the bottom to allow a rapid visualization of the viral proteins affected.
Figure 2. Distribution of SARS-CoV-2 lineages across time in Argentina, other Brazilian regions and in the RS state. (A) Per month lineage distribution in Argentina, entire Brazil and the RS state. Only the 10 most prevalent lineages were considered. (B) Timeline showing the distribution of the most prevalent lineages until the end of 2020 (B.1.1.28 and B.1.1.33) and from the end of 2020 onward (P.1 and P.2) for the fifth Brazilian regions, the RS state and considering only this study (March 2021). (C) Abundance of different lineages in the eight intermediate regions of the RS state defined by IBGE. The region of Porto Alegre was amplified and the frequencies from 2020, 2021 and only considering the present study are presented on the right. NA=Other lineages.
Figure 4. Bayesian discrete asymmetric phylogeographic analysis of the identified Clade 1 (lineage P.1.2). (A) Root-to-tip regression of genetic distances and sampling dates for Clade 1. Correlation coefficient and R squared are depicted above the graph.
Figure 5. Bayesian discrete asymmetric phylogeographic analysis of the identified clades 2, 3 and 4. (A) MCC tree of the 71 sequences included in this analysis up to 26 April, 2021. (A) MCC tree of the 122 genomes included in this analysis up to 26 April, 2021. (A) MCC tree of the 50 sequences included in this analysis up to 26 April, 2021. For all MCC trees, numbers above branches represent the posterior probability of each branch. Only posteriors > 0.5 are shown. Asterisks represent potential introductions in the RS state and subclades cited in the text are indicated. Circles indicate countries outside Brazil and Brazilian states (BR suffix).
Detailed description and frequency of mutations found in our 56 sequences compared with all Brazilian P.1 sequences until April 26, 2021.
Predominance of the SARS-CoV-2 lineage P.1 and its sublineage P.1.2 in patients from the metropolitan region of Porto Alegre, Southern Brazil in March 2021: a phylogenomic analysis
  • Preprint
  • File available

May 2021

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327 Reads

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17 Citations

Almost a year after the COVID-19 pandemic had begun, The United Kingdom, South Africa, and Brazil became the epicenter of new lineages, the Variant of Concern (VOCs), B.1.1.7, B.1.351, and P.1, respectively. These VOCs are increasingly associated with enhanced transmissibility, immunity evasion, and mortality. The previous most prevalent lineages in the state of Rio Grande do South (Brazil), B.1.1.28 and B.1.1.33 were rapidly replaced by P.1 and P.2, two B.1.1.28-derived lineages harboring the E484K mutation. To perform a genomic characterization of SARS-CoV-2 samples from COVID-19 patients from the metropolitan region of Porto Alegre (Rio Grande do Sul, Southern Brazil), in this second pandemic wave, we sequenced viral samples from patients of this region to: (i) identify the prevalence of SARS-CoV-2 lineages in the region, the state and bordering countries/states, (ii) characterize the mutation spectra, and (iii) hypothesize possible viral dispersal routes by using phylogenetic and phylogeographic approaches. As results, we not only confirmed that 96.4% of the samples belonged to the P.1 lineage but also that approximately 20% of which could be assigned as the newer P.1.2 (a P.1 derived new sublineage harboring new signature substitutions recently described and present in other Brazilian states and foreign countries). Moreover, P.1 sequences from this study were allocated in several distinct branches (four clades and five clusters) of the P.1 phylogeny, suggesting multiple introductions of P.1 in Rio Grande do Sul still in 2020 and placing this state as a potential core of diffusion and emergence of P.1-derived clades. It is still uncertain if the emergence of P.1.2 and other P.1 clades are related to further virological, clinical, or epidemiological consequences. However, the clear signs of viral molecular diversification from recently introduced P.1 warrant further genomic surveillance.

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Citations (2)


... Based on sequences accessible through GISAID, Mayer et al. have further substantiated these findings [54]. Utilizing phylogeographic analysis, it has been determined that the RS state imported the AY.99.1 and AY.99.2 sublineages from Brazil's southeast region, as well as the AY.101 sublineage from Paraná, which is also part of the southern region of the country [55]. The state of Rio de Janeiro, located in Brazil's southeast region, reported the first autochthonous transmission of the Delta variant in July. ...

Reference:

Introduction, Dispersal, and Predominance of SARS-CoV-2 Delta Variant in Rio Grande do Sul, Brazil: A Retrospective Analysis
Intense P.1 (Gamma) diversification followed by rapid Delta substitution in Southern Brazil: a SARS-CoV-2 Genomic Epidemiology study
  • Citing Article
  • October 2023

Microbes and Infection

... These VOCs have alleles that confer high transmissibility with some capacity for a second attack (reinfection), even after vaccination (Wibmer et al., 2021;Davies et al., 2021a;Jassat et al., 2021;Davies et al., 2021a;Davies et al., 2021b;Graham et al., 2021;ECDC, 2021a;NERVTAG, 2021;Challen et al., 2021;Bager et al., 2021;Faria et al., 2021a,b;Buss et al., 2021;Taylor, 2021;Martins et al., 2021;Franceschi et al., 2021;Montagutelli et al., 2021;Bogler et al., 2020;Bivins et al., 2020). ...

Predominance of the SARS-CoV-2 lineage P.1 and its sublineage P.1.2 in patients from the metropolitan region of Porto Alegre, Southern Brazil in March 2021: a phylogenomic analysis