Evolutionary rates and genetic diversities of mixed potyviruses in Narcissus.

There is no attempt to evaluate evolutionary rates, timescales and diversities of viruses collected from mixedly infected hosts in nature. Plants of the genus Narcissus are a monocotyledon and are susceptible to several viruses. In this study, narcissus plants (Narcissus tazetta var. chinensis) showing mosaic or striping leaves were collected in Japan, and these were investigated for potyvirus infections using potyvirus-specific primers. Individual narcissus plants were found frequently to be mixedly infected with different potyviruses, different isolates and quasispecies of same virus. The viruses were potyviruses and a macluravirus in the family Potyviridae, namely Narcissus late season yellows virus (NLSYV), Narcissus yellow stripe virus (NYSV), Narcissus degeneration virus (NDV), Cyrtanthus elatus virus A (CyEVA) and Narcissus latent virus (NLV). Genetic diversities of coat protein coding region of different virus species were different; NYSV and CyEVA were most diverse whereas NDV was least. Evolutionary rates of all five narcissus viruses were 1.33-7.15×10-3nt/site/year and were similar. The most recent common ancestors (TMRCAs) varied between virus species; NYSV and CyEVA were the oldest whereas NDV was the youngest. Thus, the oldness of TMRCAs of the viruses correlated well with the greatness of nucleotide diversities.

First Genome Sequence of Wild Onion Symptomless Virus, a Novel Member of Potyvirus in the Turnip Mosaic Virus Phylogenetic Group.

The nearly complete genome sequence of a new species of potyvirus was obtained from the symptomless wild onion (Allium sp.) in Turkey. This virus has less than 67% nucleotide sequence identities over the polyprotein to other known potyviruses. We propose the name wild onion symptomless virus for this novel potyvirus.