Complete sequence and genetic characterization of Raspberry latent virus, a novel member of the family Reoviridae.

A new virus isolated from red raspberry plants and detected in the main production areas in northern Washington State, USA and British Columbia, Canada was fully sequenced and found to be a novel member of the family Reoviridae. The virus was designated as Raspberry latent virus (RpLV) based on the fact that it is symptomless when present in single infections in several Rubus virus indicators and commercial raspberry cultivars. RpLV genome is 26,128 nucleotides (nt) divided into 10 dsRNA segments. The length of the genomic segments (S) was similar to those of other reoviruses ranging from 3948 nt (S1) to 1141 nt (S10). All of the segments, except S8, have the conserved terminal sequences 5'-AGUU----GAAUAC-3'. A point mutation at each terminus of S8 resulted in the sequences 5'-AGUA----GAUUAC-3'. Inverted repeats adjacent to each conserved terminus as well as stem loops and extended pan handles were identified by analyses of secondary structures of the non-coding sequences. All segments, except S3 and S10, contained a single open reading frame (ORF) on the positive sense RNAs. Two out-of-frame overlapping ORFs were identified in segments S3 (ORF S3a and S3b) and S10 (ORF S10a and S10b). Amino acid (aa) alignments of the putative proteins encoded by the main ORF in each segment revealed a high identity to several proteins encoded by reoviruses from different genera including Oryzavirus, Cypovirus, and Dinovernavirus. Alignments of the polymerase, the most conserved protein among reoviruses, revealed a 36% aa identity between RpLV and Rice ragged stunt virus (RRSV), the type member of the genus Oryzavirus, indicating that these two viruses are closely related. Phylogenetic analyses showed that RpLV clusters with members of the genera Oryzavirus, Cypovirus, Dinovernavirus and Fijivirus. These genera belong to the subfamily Spinareovirinae which includes reoviruses with spiked core particles ('turreted' reoviruses). In addition, two nucleotide binding motifs, regarded as 'signature' sequences among turreted reoviruses, were also found in RpLV P8, suggesting that RpLV is a novel dicot-infecting reovirus in the subfamily Spinareovirinae.