Respiratory syncytial virus B sequence analysis reveals a novel early genotype

Respiratory syncytial virus (RSV) is a major cause of respiratory infections and is classified in two main groups, RSV-A and RSV-B, with multiple genotypes within each of them. For RSV-B, more than 30 genotypes have been described, without consensus on their definition. The lack of genotype assignation criteria has a direct impact on viral evolution understanding, development of viral detection methods as well as vaccines design. Here we analyzed the totality of complete RSV-B G gene ectodomain sequences published in GenBank until September 2018 (n = 2190) including 478 complete genome sequences using maximum likelihood and Bayesian phylogenetic analyses, as well as intergenotypic and intragenotypic distance matrices, in order to generate a systematic genotype assignation. Individual RSV-B genes were also assessed using maximum likelihood phylogenetic analyses and multiple sequence alignments were used to identify molecular markers associated to specific genotypes. Analyses of the complete G gene ectodomain region, sequences clustering patterns, and the presence of molecular markers of each individual gene indicate that the 37 previously described genotypes can be classified into fifteen distinct genotypes: BA, BA-C, BA-CC, CB1-THB, GB1-GB4, GB6, JAB1-NZB2, SAB1, SAB2, SAB4, URU2 and a novel early circulating genotype characterized in the present study and designated GB0. © 2021, The Author(s).

attachment protein G; virus envelope protein; classification; DNA sequence; genetics; genotype; geography; human; Human respiratory syncytial virus; isolation and purification; phylogeny; respiratory syncytial virus infection; virology; virus gene; virus genome; whole genome sequencing; Genes, Viral; Genome, Viral; Genotype; Geography; Humans; Phylogeny; Respiratory Syncytial Virus Infections; Respiratory Syncytial Virus, Human; Sequence Analysis, DNA; Viral Envelope Proteins; Whole Genome Sequencing

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