| Abstract: | Exploration of the genetic diversity of WU polyomavirus (WUV) has been limited in terms of the specimen numbers and particularly the sizes of the genomic fragments analyzed. Using whole-genome sequencing of 48 WUV strains collected in four continents over a 5-year period and 16 publicly available whole-genome sequences, we identified three main WUV clades and five subtypes, provisionally termed Ia, Ib, Ic, II, IIIa, and IIIb. Overall nucleotide variation was low (0 to 1.2%). The discriminatory power of the previous VP2 fragment typing method was found to be limited, and a new, larger genotyping region within the VP2/1 interface was proposed.In 2007, two new human polyomaviruses isolated from respiratory samples of pediatric patients suffering from respiratory disease were discovered, with one being KI polyomavirus (KIV) (2) and the other being WU polyomavirus (WUV) (8).WU polyomavirus shares most of the genomic characteristics of other polyomaviruses, with a noncoding control region (NCCR) separating the early and late coding regions on opposite strands. However, unlike for JCV and BKV, but similar to what was observed for KIV, a late-region-residing agnoprotein gene has not been identified in WUV (8).Despite being frequently detected in respiratory samples of ill patients, no distinct disease associations have so far been conclusively identified for WUV (1, 2, 4, 8, 10, 27). There have been some suggestions that sequence variation plays a role in disease severity and pathogenesis in other polyomaviruses (6, 24). Unfortunately, due to the early nature of research into WUV, there has been a dearth of available complete genomic sequences.In this study, we set out to investigate a large sample set of whole WUV genomes from diverse geographical, temporal, and clinical origins. Incorporating existing WUV genomes with this data set allowed us to investigate global WUV genomic diversity, to characterize the WUV genome, and to propose a new robust typing scheme. |
