The genetic diversity of Cymbidium mosaic virus (CymMV, family Flexiviridae) was assessed by analysing the nucleotide sequences of coat protein (CP) and partial RNA-dependent RNA polymerase (RdRp) genes. Thirty CymMV sequences from vanilla isolates, obtained in this work by direct sequencing of RT-PCR products, were compared to the sequences from ornamental orchid isolates available in GenBank. The CymMV population exhibited overall low genetic diversity (pi=0.054 and pi=0.053 for CP and RdRp genes, respectively). Phylogenetic analyses of the 85 CP and 37 RdRp sequences revealed the segregation of the isolates into two congruent monophyletic clusters; however these two subgroups did not cluster in amino sequence analysis because most of the nt mutations were synonymous. Nevertheless, the subgrouping was confirmed by highly significant Kst tests for the CP and RdRp genes. Analysis of population genetic parameters and distribution of synonymous and nonsynonymous mutations revealed that both genes were under negative selection with no recombination events. These results suggested that the CymMV isolates found in cultivated orchids worldwide have a dual origin and are expanding as if following bottlenecks.
A simple one‐tube one‐step RT‐PCR assay with degenerate primers followed by direct sequencing of a 327 bp coat protein gene fragment was used to identify the potyviruses infecting vanilla. With this technique, unambiguous species allocation was achieved for 34 potyvirus‐infected vanilla samples collected in the Indian Ocean and the Pacific areas between 1997 and 2005. Virus identification relied on blast homology and nucleotide identities of 162 to 327 nt fragments with known potyvirus sequences. Species allocation was confirmed by neighbour‐joining of the 149 nt common to 32 vanilla sequences and 51 known potyviruses. Subject to further identification, these data revealed four additional Potyvirus species that may infect vanilla: Bean yellow mosaic virus, Cowpea aphid‐borne mosaic virus, Ornithogalum mosaic virus and Wisteria vein mosaic virus. The procedure was rapid, cost‐effective, easy to use and showed a good taxonomic discriminating value. It also enabled the identification of potyviruses in adjacent weeds and should thus aid the understanding of outbreaks of potyviruses occurring in varied epidemiological circumstances.
This study, using RT-PCR, is the first comprehensive assessment since 1991 of a generic detection method for the Luteoviridae. Thirteen Luteoviridae species were detected using three separate sets of low-degeneracy generic primers with RT-PCR to amplify 68-, 75-and 129 ⁄ 156-bp regions of the Luteoviridae coat-protein gene. Species detected include all members of the genus Luteovirus [Barley yellow dwarf virus (BYDV)-PAV, BYDV-PAS, BYDV-MAV (129 and ⁄ or 156 bp amplicons), Soybean dwarf virus, Bean leafroll virus (68 bp amplicon)] and eight of nine species from the genus Polerovirus [Beet western yellows virus, Beet chlorosis virus, Beet mild yellowing virus, Turnip yellows virus, Potato leafroll virus, Cucurbit aphid-borne yellows virus, Cereal yellow dwarf virus-RPV (68-bp amplicon) and Sugarcane yellow leaf virus (75-bp amplicon)]. These primers were not able to detect Carrot red leaf virus, Sweet potato leaf speckling virus (both belong to unassigned Luteoviridae) and Pea enation mosaic virus-1 (genus Enamovirus). A synthetic positive control containing all primer sequence priming sites was designed to facilitate this method as a generic tool for use with a variety of host plants. The Luteoviridae primers described in this study present a simple infection-detection tool of benefit to biosecurity authorities in nursery-stock surveillance, disease management or outbreak prevention, and may also be useful in detection of as-yet undiscovered species within the Luteovirus and Polerovirus genera.
A survey was carried out to identify the viruses infecting vanilla in French Polynesia and to assess their incidence. Virus identification was based on enzyme-linked immunosorbent assay (ELISA) and, for potyviruses, on the sequence of part of the coat protein and inoculation assays. Between 1998 and 1999, 3,610 vanilla plants from 49 plots in the Society Islands were indexed. Cymbidium mosaic virus (CymMV) was detected in 500 vines from 10 plots in the Leeward Islands. The data suggest that this virus has spread widely since its first detection in French Polynesia in 1986, most likely through the dissemination of symptomless infected cuttings. Viruses belonging to the Potyvirus genus were found in 674 plants from 27 plots in the four islands surveyed. Three distinct potyviruses have been identified: (i) Vanilla mosaic virus, (ii) Watermelon mosaic virus, and (iii) and a virus related to Bean common mosaic virus. The symptoms induced on Vanilla tahitensis by the three potyviruses can be differentiated from each other and from those due to CymMV. A significant proportion of the plants surveyed (97/476) were symptomatic but tested negative by ELISA for CymMV and the Potyvirus group. Odontoglossum ringspot virus was not detected in any sample tested.
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