A natural ANI gap that can define intra-species units of bacteriophages and other viruses
Despite the importance of intra-species variants of viruses for causing disease and/or disrupting ecosystem functioning, there is no universally applicable standard to define these. A 95% whole-genome average nucleotide identity (ANI) gap is commonly used to define species, especially for bacteriophages, but whether a similar gap exists within species that can be used to define intra-species units has not been evaluated yet. Whole-genome comparisons among members of 1,016 bacteriophage species revealed a region of low frequency of pairs around 99.2-99.8% ANI, showing 3-fold or fewer pairs than expected for an even or normal distribution. This second gap is prevalent in viruses infecting various cultured or uncultured hosts, and from a variety of environments, although a few exceptions to this pattern were also observed (~3.7% of the total species evaluated) and are likely attributed to cultivation biases. Similar results were observed for a limited set of eukaryotic viruses that are ad