Abstract
BackgroundThe varicelloviruses comprise a genus within the alphaherpesvirus subfamily, and infect both humans and other mammals. Recently, next-generation sequencing has been used to generate genomic sequences of several members of the Varicellovirus genus. Here, currently available varicellovirus genomic sequences were used for phylogenetic, recombination, and genetic distance analysis.ResultsA phylogenetic network including genomic sequences of individual species, was generated and suggested a potential restriction between the ungulate and non-ungulate viruses. Intraspecies genetic distances were higher in the ungulate viruses (pseudorabies virus (SuHV-1) 1.65%, bovine herpes virus type 1 (BHV-1) 0.81%, equine herpes virus type 1 (EHV-1) 0.79%, equine herpes virus type 4 (EHV-4) 0.16%) than non-ungulate viruses (feline herpes virus type 1 (FHV-1) 0.0089%, canine herpes virus type 1 (CHV-1) 0.005%, varicella-zoster virus (VZV) 0.136%). The G + C content of the ungulate viruses was also higher (SuHV-1 73.6%, BHV-1 72.6%, EHV-1 56.6%, EHV-4 50.5%) compared to the non-ungulate viruses (FHV-1 45.8%, CHV-1 31.6%, VZV 45.8%), which suggests a possible link between G + C content and intraspecies genetic diversity. Varicellovirus clade nomenclature is variable across different species, and we propose a standardization based on genomic genetic distance. A recent study reported no recombination between sequenced FHV-1 strains, however in the present study, both splitstree, bootscan, and PHI analysis indicated recombination. We also found that the recently sequenced Brazilian CHV-1 strain BTU-1 may contain a genetic signal in the UL50 gene from an unknown varicellovirus.ConclusionTogether, the data contribute to a greater understanding of varicellovirus genomics, and we also suggest a new clade nomenclature scheme based on genetic distances.
Highlights
The varicelloviruses comprise a genus within the alphaherpesvirus subfamily, and infect both humans and other mammals
Vaccines have been developed against several varicelloviruses, including varicella zoster virus (VZV), pseudorabies virus, Bovine herpes virus type 1 (BHV-1), Equine herpes virus type 1 (EHV-1), Equine herpes virus type 4 (EHV-4), Feline herpes virus type 1 (FHV-1), Canine herpes virus type 1 (CHV-1), which have been effective at reducing morbidity and mortality [12,13,14,15,16,17,18,19,20,21,22]
anatid herpes virus type 1 (AnHV-1) was chosen as an outgroup because the AnHV-1 is an alphaherpesvirus, and the genome is annotated in a similar fashion to the varicelloviruses
Summary
The varicelloviruses comprise a genus within the alphaherpesvirus subfamily, and infect both humans and other mammals. (Aujeszky’s disease) in pigs, BHV-1 (bovine herpes virus type 1; infectious bovine rhinotracheitis; IBR), EHV-1 (equine herpes virus type 1; epidemic abortion and myeloencephalopathy in horses), EHV-4 (equine herpes virus type 4; equine rhinopneumonitis), FHV-1 (feline herpes virus type 1; feline rhinotracheitis), and CHV-1 (canine herpes virus type 1; fading puppy syndrome). These viruses have significant impact on livestock and companion animals. Pseudorabies vaccination and eradication efforts in the United States have been effective, with the
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