Recommendations for the introduction of metagenomic high-throughput sequencing in clinical virology, part I: Wet lab procedure

Metagenomic high-throughput sequencing (mHTS) is a hypothesis-free, universal pathogen detection technique for determination of the DNA/RNA sequences in a variety of sample types and infectious syndromes. mHTS is still in its early stages of translating into clinical application. To support the development, implementation and standardization of mHTS procedures for virus diagnostics, the European Society for Clinical Virology (ESCV) Network on Next-Generation Sequencing (ENNGS) has been established. The aim of ENNGS is to bring together professionals involved in mHTS for viral diagnostics to share methodologies and experiences, and to develop application recommendations. This manuscript aims to provide practical recommendations for the wet lab procedures necessary for i

Limited variation during circulation of a polyomavirus in the human population involves the COCO-VA toggling site of Middle and Alternative T-antigen(s)

We have recently shown that the trichodysplasia spinulosa-associated polyomavirus (TSPyV) belongs to a large monophyletic group of mammalian polyomaviruses that experienced accelerated codon-constrained Val-Ala (COCO-VA) toggling at a protein site common to both Middle and Alternative T-antigens (MT/ALTO). Here we analyzed thirteen, mostly newly sequenced TSPyV genomes, representing ~40% of reported TS disease cases world-wide. We found two deletions and 30 variable sites (≤0.6%) that included only four sites with non-synonymous substitutions (NSS). One NSS site was under positive selection in the exon shared by Small and Middle T antigens, while three others were segregated in MT/ALTO. Two MT/ALTO sites covaried with five sites elsewhere in the genome and determined separation of twelve TSPyVs into two most populous phylogenetic lineages. The other, most distant TSPyV was distinguished by NSS at the COCO-VA site, observed for the first time during intra-species evolution. Our findings reveal a connection between micro- and macro-evolution of polyomaviruses