RESUMO
The genetic diversity of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has the potential to impact the virus transmissibility and the escape from natural infection- or vaccine-elicited neutralizing antibodies. Here, representative samples from circulating SARS-CoV-2 in Colombia between January and April 2021, were processed for genome sequencing and lineage determination following the nanopore amplicon ARTIC network protocol and PANGOLIN pipeline. This strategy allowed us to identify the emergence of the B.1.621 lineage, considered a variant of interest (VOI) with the accumulation of several substitutions affecting the Spike protein, including the amino acid changes T95I, Y144T, Y145S and the insertion 146N in the N-terminal domain, R346K, E484K and N501Y in the Receptor-binding Domain (RBD) and P681H1 in the S1/S2 cleavage site of the Spike protein. The rapid increase in frequency and fixation in a relatively short time in Magdalena, Atlantico, Bolivar, Bogota D.C, and Santander that were near the theoretical herd immunity suggests an epidemiologic impact. Further studies will be required to assess the biological and epidemiologic roles of the substitution pattern found in the B.1.621 lineage. HighlightsO_LIMonitoring the emergence of new variants of SARS-CoV-2 in real time is a worldwide priority. C_LIO_LIEmerging variants of SARS-CoV-2 may have high impact biological implications for public health C_LIO_LIThe SARS-CoV-2 B.1.621 variant of interest was characterized by several substitutions: T95I, Y144T, Y145S, ins146N, R346K, E484K, N501Y and P681H in spike protein. C_LI
RESUMO
COVID-19 pandemics has led to genetic diversification of SARS-CoV-2 and the appearance of variants with potential impact in transmissibility and viral escape from acquired immunity. We report a new lineage containing ten distinctive amino acid changes across the genome. Further studies are required for monitoring its epidemiologic impact.
RESUMO
IntroductionSARS-CoV-2 is a new member of the genus Betacoronavirus, responsible for the COVID-19 pandemics. The virus crossed the species barrier and established in the human population due to its ability to exploit the ACE receptor for virus entry, which is present and abundant in several tissues, including the lung and respiratory tract, gastrointestinal tract and hearth. Virus interaction with the cellular receptor is mediated by the surface protein, known as Spike. Another structural protein of major importance in the Nucleocapsid, directly interacting with the viral RNA to form the ribonucleocapsid, considered a multifunctional protein, and being the target of the most molecular diagnostics assays. ObjectiveTo describe the frequency of substitutions in spike and nucleocapsid proteins of SARS-CoV-2 circulating in Colombia and evaluate the frequency of these substitutions in SARS-CoV-2 sequences from other countries of South America. Materials and methodsSamples of 43 patients were included for viral RNA detection by real-time RT-PCR using the Charite-Berlin protocol for the amplification of the SARS-CoV-2 E and RdRp genes. Genome sequences were obtained through the Oxford Nanopore and Illumina MiSeq technologies, following the artic.network "nCoV-2019 sequencing protocol". Available genomes were consulted from GISAID, GenBank, and Genome sequence archive (GSA) and a total of 371 genomes sequences from South America were included. The genome sequences were aligned with the Muscle tool using the MEGA X software. Substitution matrices of the Colombian sequences respect to the reference genome (NC_045512) at the nucleotide and amino acid levels were generated for the spike and nucleocapsid gene. Resultssubstitution D614G in the amino acid sequence of spike protein was found in 86.7% of the Colombian sequences; substitutions G181V and D936Y in 2.3%, respectively. Five substitutions were found in the nucleocapsid protein, with substitution R203K and G204R being the most frequent (13.95 %) in Colombia. The substitutions D614G in Spike and R203K-G204R in nucleocapsid have a frequency of 83% and 28% respectively in sequences from South America. ConclusionNon-synonymous substitutions were found in the spike and nucleocapsid proteins in Colombian genomes, the most frequent being D614G in Spike and R203K-G204R in nucleocapsid. These substitutions are frequent in the genomes reported for other South American countries. It is necessary to continue with genomic surveillance of the changes in Spike and Nucleocapsid proteins during the SARS-CoV-2 pandemic in Colombia and South America, even more considering that these proteins are the most commonly used antigen in serological tests. HighlightsO_LIThe spike and nucleocapsid proteins of SARS-CoV-2 circulating in Colombia and South-American countries have similar patterns of non-synonymous substitutions C_LIO_LISubstitutions D614G in Spike and R203K-G204R in Nucleocapsid are the most frequent in Colombia and South-American countries C_LI