Cylindrical Inclusion Protein of Wheat Yellow Mosaic Virus Is Involved in Differential Infection of Wheat Cultivars.

Abstract

Wheat yellow mosaic virus (WYMV) belongs to the genus Bymovirus in the family Potyviridae and has a bipartite genome (RNA1 and RNA2). WYMV in Japan is classified into three pathotypes (I to III) based on its pathogenicity to wheat cultivars. Among these three, pathotypes I and II are discriminated by their pathogenicity to the wheat cultivar Fukuho; pathotype I infects Fukuho but pathotype II does not. In the present study, the genomic regions that are involved in such pathogenicity were examined using infectious viral cDNA clones of pathotypes I and II. Reassortant experiments between viral RNA1 and RNA2 revealed the presence of a viral factor related to pathogenicity in RNA1. A chimeric pathotype II virus harboring a cylindrical inclusion (CI) cistron from pathotype I facilitated systemic infection of Fukuho, indicating that CI protein is involved in pathogenicity. Furthermore, analysis of chimeric and site-directed mutants revealed that three amino acids at the N-terminal region of CI protein were involved in pathogenicity to Fukuho. On the other hand, at the single-cell level, pathotype II replicated in protoplasts of Fukuho similar to that of pathotype I virus. These data suggest that differential pathogenicity between pathotypes I and II was considered to depend on the ability of cell-to-cell or long-distance viral movement, in which CI protein is involved. To the best of our knowledge, this is the first report to show the involvement of the bymoviral CI protein in pathogenicity.