Abstract
Powassan virus (POWV) is a tick-borne flavivirus in the tick-borne encephalitis virus (TBEV) serogroup endemic to the United States, Canada, and parts of Russia. POWV remains an under-studied pathogen, despite the potential for serious and life-threatening neurologic complications following infection. While prior studies have characterized viral diversity due to single nucleotide polymorphisms, little is known about POWV recombination, defective RNAs (D-RNAs), and functional structural variants (SVs). Understanding POWV recombination in its natural vector can provide important insights into its replication and evolution. Thus, we analyzed POWV sequence data from 51 ticks collected from the Northeast United States to characterize deletion expression levels and patterns in naturally infected ticks, and we compared these results to single-passage isolates. We found that deletions were common in POWV RNA from ticks and that several areas of the genome were enriched for recombination junctions. Deletions were often associated with areas of microhomology. While most deletions were sample-specific, two major deletion archetypes were observed across multiple tick samples. The first consisted of small 19-50 base deletions in the methyltransferase domain of the ns5 RNA-dependent RNA-polymerase gene, resulting in a mixture of putative SVs and D-RNAs. The second consisted of approximately 1600 base deletions spanning the ns2a-ns3 genes, resulting in putative D-RNAs with abrogated viral protease function. Protease deletions were significantly enriched after one passage in baby hamster kidney cells despite a decrease in overall deletion expression. These results demonstrate the proclivity of POWV for recombination, with potential implications for immune evasion and persistence in ticks.
Competing Interest Statement
The authors have declared no competing interest.