Host-specific adaptation drove the coevolution of leek yellow stripe virus and Allium plants

Host adaptation plays a crucial role in virus evolution and is a consequence of long-term interactions between virus and host in a complex arms race between host RNA silencing and viral RNA silencing suppressor (RSS) as counterdefense. Leek yellow stripe virus (LYSV), a potyvirus causing yield loss of garlic, infects several species of Allium plants. The unexpected discovery of an interspecific hybrid of garlic, leek, and great-headed (GH) garlic motivated us to explore the host-adaptive evolution of LYSV. Here, using Bayesian phylogenetic comparative methods and a functional assay of viral RSS activity, we show that the evolutionary context of LYSV has been shaped by the host adaptation of the virus during its coevolution with Allium plants. Our phylogenetic analysis revealed that LYSV isolates from leek and their taxonomic relatives (Allium ampeloprasum complex; AAC) formed a distinct monophyletic clade separate from garlic isolates and are likely to be uniquely adapted to AAC. Our comparative studies on viral accumulation indicated that LYSV accumulated at a low level in leek, whereas LYSVs were abundant in other Allium species such as garlic and its relatives. When RSS activity of the viral P1 and HC-Pro of leek LYSV isolate was analyzed, significant synergism in RSS activity between the two proteins was observed in leek but not in other species, suggesting that viral RSS activity may be important for the viral host-specific adaptation. We thus consider that LYSV may have undergone host-specific evolution at least in leek, which must be driven by speciation of its Allium hosts.

Automated summary

This study investigates the host-adaptive evolution of leek yellow stripe virus (LYSV) through Bayesian phylogenetic comparative methods and a functional assay of viral RNA silencing suppressor (RSS) activity. It reveals that LYSV has evolved in response to different Allium plant hosts, with distinct evolutionary backgrounds between leek and garlic isolates. The research also demonstrates that viral RSS activity may play a crucial role in the host-specific adaptation of LYSV, specifically in leek.