Retrospective molecular and phenotypic characterization of a vaccine-derived poliovirus (VDPV) type 1 isolate (7/b/97) isolated from sewage in Athens, Greece, in 1997 is reported. VP1 sequencing of this isolate revealed 1.87% divergence from the VP1 region of reference strain Sabin 1, while further genomic characterization of isolate 7/b/97 revealed a recombination event in the nonstructural part of the genome between a vaccine strain and a nonvaccine strain probably belonging to Enterovirus species C. Amino acid substitutions commonly found in previous studies were identified in the capsid coding region of the isolate, while most of the attenuation and temperature sensitivity determinants were reverted. The ultimate source of isolate 7/b/97 is unknown. The recovery of such a highly divergent derivative of a vaccine strain emphasizes the need for urgent implementation of environmental surveillance as a supportive procedure in the polio surveillance system even in countries with high rates of OPV coverage in order to prevent cases or even outbreaks of poliomyelitis that otherwise would be inevitable.
Phylogenetic relationships between 37 echovirus clinical isolates, most of them originating from an aseptic meningitis outbreak during 2001 in Greece, were investigated by RT-PCR and sequencing. The generic primers 292 and 222 were used to amplify about 300 bp of the 5' end of VP1 while primers EUG3a, 3b, 3c, and EUC2 amplified the entire coding sequence of the 2A and 2B genes. Phylogenetic trees were constructed for each genomic region using the clinical isolates' sequences and those of the prototype echoviruses in order to investigate the correlation of part of VP1 with the serotype as well as the genetic variation of the echovirus genome in 2A and 2B. The phylogenetic grouping pattern of the clinical isolates revealed that there is a correlation of serotype and genotype in the part of VP1 that was investigated, while this pattern is disrupted in the adjacent genomic regions that were sequenced. Sequence analysis of the adjacent 2A and 2B genes provided a different pattern of phylogenetic relationships and strong evidence of epidemiological linkage of most of the clinical isolates.
Modern molecular methods use VP1 coding region as a target for RT-PCR assays followed by sequencing, in order to identify new untyped enteroviruses' strains. In the present study, two different genomic portions of VP1 and the full length of 2A coding region of 53 clinical isolates, mostly belonging to HEV-B species, were amplified and sequenced. Nucleotide analysis of the produced sequences revealed that the values that define an unknown strains serotype vary according to the serotype and the specific part of VP1, which is investigated. The correlation, however, with the serotype was affirmed in both VP1 portions that were studied, as well as in the first 20 bases of 2A region. In the rest of 2A, no correlation with the serotype and disruption of monophyly was observed. Phylogenetic analysis of the same sequences confirmed, in most cases, the results of the nucleotide analysis.
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