Complete genome sequence of vaccinium-associated virus C, a new member of the family Totiviridae from Vaccinium floribundum.

Blueberries (Vaccinium sp.) are a major crop grown in the Pacific Northwest region. Currently, there are at least 17 known viruses that infect blueberry plants, and some of them cause a wide range of symptoms and economic losses. A new virus, vaccinium-associated virus C (VaVC) (family Totiviridae, genus Totivirus) was identified in an imported blueberry accession from the USDA-ARS National Clonal Germplasm Repository in Corvallis, Oregon. The complete genomic sequence of VaVC was determined, but the biological significance of VaVC is unknown and requires further study. Additional Vaccinium sp. accessions should be screened to investigate the incidence of this new virus.

Complete sequence and genome characterization of miscanthus virus M, a new betaflexivirus from Miscanthus sp.

A novel betaflexivirus, tentatively named "miscanthus virus M" (MiVM), was isolated from Miscanthus sp. The complete genome of MiVM is 7,388 nt in length (excluding the poly(A) tail). It contains five open reading frames and has a genome organization similar to those of members of the families Alphaflexiviridae and Betaflexiviridae (subfamily Quinvirinae). The amino acid sequences of both the replicase and coat protein shared less than 45% identity with the corresponding sequences of members of either family. Phylogenetic analysis confirmed that MiVM belongs to the family Betaflexiviridae and subfamily Quinvirinae but it was too distantly related to be included in any currently recognized genus in this family. We therefore propose that miscanthus virus M represents a new species and a new genus in the family Betaflexiviridae.

Complete genome sequence of two isolates of pokeweed mosaic virus and its relationship to other members of the genus Potyvirus.

The complete genomic sequences of two isolates of pokeweed mosaic virus (PkMV) were determined to be 9512 nucleotides long, excluding the poly(A) tail. Their genomic organization is typical of potyviruses and contains conserved motifs found in members of the genus Potyvirus. Pairwise comparisons showed that PkMV and other members of the genus Potyvirus share 51.0-57.5 % sequence identity at the genome sequence level and 39.8-53.0 % at the polyprotein sequence level. Phylogenetic analysis indicated that PkMV is most closely related to several viruses in the PVY group of the genus Potyvirus. The genomic information obtained for PkMV suggests that this virus is a distinct potyvirus.

Molecular analysis of the complete genomic sequences of four isolates of Gooseberry vein banding associated virus.

The presence of Gooseberry vein banding associated virus (GVBaV), a badnavirus in the family Caulimoviridae, is strongly correlated with gooseberry vein banding disease in Ribes spp. In this study, full-length genomic sequences of four GVBaV isolates from different hosts and geographic regions were determined to be 7649-7663 nucleotides. These isolates share identities of 96.4-97.3% for the complete genomic sequence, indicating low genetic diversity among them. The GVBaV genome contains three open reading frames (ORFs) on the plus strand that potentially encode proteins of 26, 16, and 216 kDa. The size and organization of GVBaV ORFs 1-3 are similar to those of most other badnaviruses. The putative amino acid sequence of GVBaV ORF 3 contained motifs that are conserved among badnavirus proteins including aspartic protease, reverse transcriptase, and ribonuclease H. The highly conserved putative plant tRNA(met)-binding site is also present in the 935-bp intergenic region of GVBaV. The identities of the genomic sequences of GVBaV and other badnaviruses range from 49.1% (Sugarcane bacilliform Mor virus) to 51.7% (Pelargonium vein banding virus, PVBV). Phylogenetic analysis using the amino acid sequence of the ORF 3 putative protein shows that GVBaV groups most closely to Dioscorea bacilliform virus, PVBV, and Taro bacilliform virus. These results confirm that GVBaV is a pararetrovirus of the genus Badnavirus in the family Caulimoviridae.

Development of a polyprobe to detect six viroids of pome and stone fruit trees.

A simple and sensitive dot blot hybridization assay using a digoxigenin-labeled cRNA polyprobe was developed for the simultaneous detection of six viroids that infect pome and stone fruit trees. The polyprobe was constructed by cloning sequentially partial sequences of each viroid into a single vector, with run-off transcription driven by the T7 promoter. All six viroids were detectable within a dilution range of 5(-3) to 5(-4) in total nucleic acid extracts from infected trees. Individual trees were co-inoculated to create mixed infections and all four pome fruit viroids and both stone fruit viroids could be detected in pear and peach trees, respectively, using the polyprobe. The results of the assays using the polyprobe were comparable to those using single probes. The methods were validated by testing geographically diverse isolates of viroids, as well as field samples from several collections in the US. The assay offers a rapid, reliable and cost-effective approach to the simultaneous detection of six fruit trees viroids and has the potential for routine use in quarantine, certification, and plant genebank programs where many samples are tested and distributed worldwide.