Computer-assisted analysis of the putative polypeptide products encoded by the two open reading frames present in a large virus-like double-stranded RNA, L-dsRNA, associated with hypovirulence of the chestnut blight fungus, Cryphonectria parasitica, revealed five distinct domains with significant sequence similarity to previously described conserved domains within plant potyvirus-encoded polyproteins.These included the putative RNA-dependent RNA polymerase, RNA helicase, two papain-like cysteine proteases related to the potyvirus helper-component protease, and a cysteine-rich domain of unknown function similar to the N-terminal portion of the potyvirus helper-component protein. Phylogenetic trees derived from the alignment of the polymerase domains of L-dsRNA, a subset of positive-stranded RNA viruses, and double-stranded RNA viruses, using three independent algorithms, suggested that the hypovirulence-associated dsRNA and potyvirus genomes share a common ancestry. However, comparison of the organization of the conserved domains within the encoded polyproteins of the respective viruses indicated that the proposed subsequent evolution involved extensive genome rearrangement.The phenomenon of transmissible hypovirulence represents a natural form of biological control in which the virulence of Cryphonectria parasitica, the chestnut blight fungus, is modulated by the presence of virus-like genetic elements composed of double-stranded RNA (dsRNA) (reviewed in refs. 1 to 4). Efforts to understand the molecular mechanisms responsible for transmissible hypovirulence have provided an emerging view of the structural and functional properties of hypovirulence-associated dsRNA genetic elements (reviewed in ref. 5). The largest dsRNA present in C. parasitica strain Ep713, L-dsRNA (12,712 base pairs), was shown recently to contain two contiguous coding domains, designated open reading frame (ORF) A and ORF B, consisting of 622 and 3165 codons, respectively (6). Both ORFs encode polyproteins that undergo autocatalytic processing during or immediately after translation (6, 7). On the basis of the similarity of the L-dsRNA genetic organization and expression strategy to those of several viral genomes, it was suggested that L-dsRNA should be considered the equivalent of a viral genome or replicative form and the descriptive term hypovirulence-associated virus (HAV) was proposed (6).Similarities between one of the HAV-encoded proteases, p29, and the potyvirus-encoded protease, HC-Pro, were noted previously (7). In addition, computer-assisted analysis of the C-terminal portion of the ORF B-encoded polyprotein revealed a domain that was clearly related to the RNA helicase of potyviruses (6). We now extend these observations by demonstrating that three additional domains are conserved between the gene products of HAV and those of potyviruses, including the putative RNA polymerase. A detailed analysis of the sequence and organization of the conserved domains within the HAV-encoded and potyvirusencoded polyproteins suggests tha...
