Phylogenetic analyses of complete genomic sequences of all 37 Human enterovirus B serotypes revealed frequent RNA recombination within the nonstructural regions of the genome among members of the same species.
RNA recombination is a common mechanism for enterovirus evolution, occurring frequently within the nonstructural regions among members of the same species.
The species Human enterovirus B (HEV-B) in the family Picornaviridae consists of coxsackievirus A9; coxsackieviruses B1 to B6; echoviruses 1 to 7, 9, 11 to 21, 24 to 27, and 29 to 33; and enteroviruses 69 and 73. We have determined complete genome sequences for the remaining 22 HEV-B serotypes whose sequences were not represented in public databases and analyzed these in conjunction with previously available complete sequences in GenBank. Members of HEV-B were monophyletic relative to all other human enterovirus species in all regions of the genome except in the 5'-nontranslated region (NTR), where they are known to cluster with members of HEV-A. Within HEV-B, phylogenies constructed from the structural (P1) and nonstructural regions of the genome (P2 and P3) are incongruent, suggesting that recombination had occurred. Similarity plots and bootscanning analysis across the complete genome identified multiple sites at which the phylogeny of a given strain's sequence shifted, indicating potential recombination points. These points are distributed in the 5'-NTR and throughout P2 and P3, but no sites with >80% bootstrap support were identified within the capsid. Individual sequence comparisons and phylogenetic analyses suggest that members of HEV-B have recombined with one another on multiple occasions, resulting in a complex mosaic of sequences derived from multiple parental viruses in the nonstructural regions of the genome. We conclude that RNA recombination is a common mechanism for enterovirus evolution and that recombination within the nonstructural regions of the genome (P2 and P3) has been observed only among members of the same species.
Oberste et al. (Tue,) conducted a other in Human enterovirus B (n=37). Complete genomic sequencing and phylogenetic analysis was evaluated on Phylogenetic incongruence and recombination points. Phylogenetic analyses of complete genomic sequences of all 37 Human enterovirus B serotypes revealed frequent RNA recombination within the nonstructural regions of the genome among members of the same species.
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