Phylogenetic and diversity analyses revealed that leek yellow stripe virus population consists of three types: S, L, and N.

Phylogenetic and evolutionary analyses were performed on the P1 and CP genes of global isolates to clarify the phylogrouping of leek yellow stripe virus (LYSV, genus Potyvirus), a pathogen affecting Allium spp. worldwide, into different types based on genetic variation and host species. The constructed phylogenetic trees divided the isolates into three major groups: S, L, and N. Low nucleotide (nt) and amino acid (aa) percent identities among the three groups were observed on full ORF (75.4-99.0 and 79.1-99.0), P1 (59.1-98.3 and 36.8-98.3), and CP (76.6-100 and 75.7-100) coding regions. The dN/dS values of P1 and CP confirmed that both genes are under strong negative (purifying) selection pressure. Neutrality tests on Eastern Asian isolates suggested that the ancestors of current LYSV isolates evolved with garlic while they were in Asia before spreading to other world regions through garlic propagative materials. Genetic differentiation and gene flow analysis showed extremely frequent gene flow from S group to L and N groups, and these phylogroups differentiated from each other over time. Host differences, inconsistent serological test results, substantial nt and aa variation, and phylogenetic and diversity analyses in this study supported previous reports that LYSV can be separated into three major evolutionary lineages: S, L, and N types.

Prunus necrotic ringspot virus in Turkey: an immigrant population.

An outbreak in northwestern Turkey of prunus necrotic ringspot virus (PNRSV, genus Ilarvirus, family Bromoviridae) was sampled in 2016-2018. Gene sequences from these isolates, together with all of the gene sequence data for this virus in the GenBank database (>300 non-recombinant coat protein (CP) genes and 20 complete genomic sequences) were analysed to determine the relationship of the Turkish PNRSV isolates to those from other parts of the world. Phylogenetic and population genetic methods independently showed that the most recent common ancestor of the world PNRSV population was probably American, not Eurasian. PNRSV has spread to Turkey on several occasions, as its CP sequences are among the terminal branches of three of the most sampled CP phylogroups. The complete PNRSV genome consists of three segments (RNA1, RNA2, and RNA3), with the larger two encoding replicases and the smallest encoding the movement protein and the CP. One quarter of the RNA1 and RNA2 genes were recombinants. The phylogenies of the CP and MP genes (i.e., different regions of RNA3) were closely correlated but did not correlate with those of RNA1 and RNA2, indicating that some of the isolates were reassortants. However, the non-reassortant ancestor could not be identified, probably because none of the complete genome sequences were from isolates from the basal CP phylogroups. Our results emphasize the importance of strict quarantine, both international and local, for the world's stone fruit crops.