Koenraad Van Doorslaer scite author profile

We present an expansion of the classification of the family Papillomaviridae, which now contains 29 genera formed by 189 papillomavirus (PV) types isolated from humans (120 types), non-human mammals, birds and reptiles (64, 3 and 2 types, respectively). To accommodate the number of PV genera exceeding the Greek alphabet, the prefix “dyo” is used, continuing after the Omega-PVs with Dyodelta-PVs. The current set of human PVs are contained within five genera, whereas mammalian, avian and reptile PVs are contained within 20, 3 and 1 genera, respectively. We propose standardizations to the names of a number of animal PVs. As prerequisite for a coherent nomenclature of animal PVs, we propose founding a Reference Center for Animal PVs. We discuss that based on emerging species concepts derived from genome sequences, PV types could be promoted to the taxonomic level of species, but do not recommend implementing this change at the current time.

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The Papillomavirus Episteme: a major update to the papillomavirus sequence database

Doorslaer

et al. 2016

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The Papillomavirus Episteme (PaVE) is a database of curated papillomavirus genomic sequences, accompanied by web-based sequence analysis tools. This update describes the addition of major new features. The papillomavirus genomes within PaVE have been further annotated, and now includes the major spliced mRNA transcripts. Viral genes and transcripts can be visualized on both linear and circular genome browsers. Evolutionary relationships among PaVE reference protein sequences can be analysed using multiple sequence alignments and phylogenetic trees. To assist in viral discovery, PaVE offers a typing tool; a simplified algorithm to determine whether a newly sequenced virus is novel. PaVE also now contains an image library containing gross clinical and histopathological images of papillomavirus infected lesions. Database URL: https://pave.niaid.nih.gov/.

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The Papillomavirus Episteme: a central resource for papillomavirus sequence data and analysis

et al. 2012

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The goal of the Papillomavirus Episteme (PaVE) is to provide an integrated resource for the analysis of papillomavirus (PV) genome sequences and related information. The PaVE is a freely accessible, web-based tool (http://pave.niaid.nih.gov) created around a relational database, which enables storage, analysis and exchange of sequence information. From a design perspective, the PaVE adopts an Open Source software approach and stresses the integration and reuse of existing tools. Reference PV genome sequences have been extracted from publicly available databases and reannotated using a custom-created tool. To date, the PaVE contains 241 annotated PV genomes, 2245 genes and regions, 2004 protein sequences and 47 protein structures, which users can explore, analyze or download. The PaVE provides scientists with the data and tools needed to accelerate scientific progress for the study and treatment of diseases caused by PVs.

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Evolution of the Papillomaviridae

2013

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Viruses belonging to the Papillomaviridae family have been isolated from a variety of mammals, birds and non-avian reptiles. It is likely that most, if not all, amniotes carry a broad array of viral types. To date, the complete genomic sequence of more than 240 distinct viral types has been characterized at the nucleotide level. The analysis of this sequence information has begun to shed light on the evolutionary history of this important virus family. The available data suggests that many different evolutionary mechanisms have influenced the papillomavirus phylogenetic tree. Increasing evidence supports that the ancestral papillomavirus initially specialized to infect different ecological niches on the host. This episode of niche sorting was followed by extensive episodes of co-speciation with the host. This review attempts to summarize our current understanding of the papillomavirus evolution.

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The Ancient Evolutionary History of Polyomaviruses

Buck¹,

Doorslaer

Peretti³

et al. 2016

PLoS Pathog

179

159

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Polyomaviruses are a family of DNA tumor viruses that are known to infect mammals and birds. To investigate the deeper evolutionary history of the family, we used a combination of viral metagenomics, bioinformatics, and structural modeling approaches to identify and characterize polyomavirus sequences associated with fish and arthropods. Analyses drawing upon the divergent new sequences indicate that polyomaviruses have been gradually co-evolving with their animal hosts for at least half a billion years. Phylogenetic analyses of individual polyomavirus genes suggest that some modern polyomavirus species arose after ancient recombination events involving distantly related polyomavirus lineages. The improved evolutionary model provides a useful platform for developing a more accurate taxonomic classification system for the viral family Polyomaviridae.

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ICTV Virus Taxonomy Profile: Papillomaviridae

et al. 2018

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The Papillomaviridae is a family of small, non-enveloped viruses with double-stranded DNA genomes of 5 748 to 8 607 bp. Their classification is based on pairwise nucleotide sequence identity across the L1 open reading frame. Members of the Papillomaviridae primarily infect mucosal and keratinised epithelia, and have been isolated from fish, reptiles, birds and mammals. Despite a long co-evolutionary history with their hosts, some papillomaviruses are pathogens of their natural host species. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the taxonomy of the Papillomaviridae, which is available at http://www.ictv.global/report/papillomaviridae.

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Ancient papillomavirus-host co-speciation in Felidae

et al. 2007

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Virus-host co-speciation

The evolutionary rate of feline papillomaviruses is inferred from the phylogenetic analysis of their hosts, providing evidence for longterm virus-host co-speciation

Abstract Background: Estimating evolutionary rates for slowly evolving viruses such as papillomaviruses (PVs) is not possible using fossil calibrations directly or sequences sampled over a time-scale of decades. An ability to correlate their divergence with a host species, however, can provide a means to estimate evolutionary rates for these viruses accurately. To determine whether such an approach is feasible, we sequenced complete feline PV genomes, previously available only for the domestic cat (Felis domesticus, FdPV1), from four additional, globally distributed feline species: Lynx rufus PV type 1, Puma concolor PV type 1, Panthera leo persica PV type 1, and Uncia uncia PV type 1.

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Human Papillomaviruses: Genetic Basis of Carcinogenicity

Burk¹,

Chen²,

Doorslaer³

2009

Public Health Genomics

130

103

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Persistent infection by specific oncogenic human papillomaviruses (HPVs) is established as the necessary cause of cervix cancer. DNA sequence differences between HPV genomes determine whether an HPV has the potential to cause cancer. Of the more than 100 HPV genotypes characterized at the genetic level, at least 15 are associated, to varying degrees, with cervical cancer. Classification based on nucleotide similarity places nearly all HPVs that infect the cervicovaginal area within the α-PV genus. Within this genus, phylogenetic trees inferred from the entire viral genome cluster all cancer-causing types together, suggesting the existence of a common ancestor for the oncogenic HPVs. However, in separate trees built from the early open reading frames (ORFs; i.e. E1, E2, E6, E7) or the late ORFs (i.e. L1, L2), the carcinogenic potential sorts with the early region of the genome, but not the late region. Thus, genetic differences within the early region specify the pathogenic potential of α-HPV infections. Since the HPV genomes are monophyletic and sites are highly correlated across the genome, diagnosis of oncogenic types and non-oncogenic types can be accomplished using any region across the genome. Here we review our current understanding of the evolutionary history of the oncogenic HPVs, in particular, we focus on the importance of viral genome heterogeneity and discuss the genetic basis for the oncogenic phenotype in some but not all α-PVs.

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