Natural Infection of Verbena and Phlox by a Recently Described Member of the Carmovirus Genus.

A novel carmovirus infecting angelonia (Angelonia angustifolia) was recently described independently by researchers in the United States, Israel, and Germany (1,2,4). Angelonia flower break virus (AnFBV) and Angelonia flower mottle virus were proposed as appropriate names for this carmovirus. The virus, causing stunting, mild leaf mottle, flower mottling, and flower breaking symptoms has been detected in naturally infected angelonia in the United States, Israel, and Germany (2,4). Here we report the first detection of natural infection of verbena (in the United States and Israel) and phlox (in the United States) by using a recently developed double-antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA; Agdia, Elkhart, IN). Prior to this report, verbena was considered insusceptible to carmovirus infection (3) and phlox was known as an experimental host for AnFBV (2). A comparative serological study including 27 virus species, demonstrated that DAS-ELISA did not cross-react with any viruses that commonly infect ornamentals or are related to carmoviruses, showing that the polyclonal antibodies are specific to AnFBV. Antibody specificity was confirmed by the carmovirus group PCR test (Agdia). Furthermore, reverse transcription-polymerase chain reaction with AnFBV specific primers (2) produced the expected 1172-bp band from all ELISA-positive samples tested. Between November 2005 and March 2006, AnFBV was detected in 181 of 567 verbena, 26 of 143 phlox, and 193 of 267 angelonia samples submitted to Agdia Testing Services by commercial ornamental propagators for virus testing. Most samples were asymptomatic, although a few exhibited mild leaf mottle. It should be noted that the number of AnFBV-infected samples might not accurately reflect the actual number of commercially produced plants infected with AnFBV because most of the samples analyzed originated from virus elimination programs. The detection of natural AnFBV infection of verbena, phlox, and angelonia suggests that AnFBV may be more widespread in the ornamental industry than previously thought. References: (1) S. Adkins et al. Phytopathology (Abstr.) 95(suppl.):S2, 2005. (2) S. Adkins et al. Phytopathology 96:460, 2006. (3) G. P. Martelli and M. Russo. Online publication. ICTVdB-The Universal Virus Database. 00.074.0.02, 2004. (4) S. Winter et al. New Disease Reports. Vol 12. Brit. Soc. Plant Pathol. Online publication, 2005.

First Report of Calibrachoa mottle virus Infecting Petunia.

Calibrachoa mottle virus (CbMV), a tentative carmovirus, was first isolated and reported by Liu et al. (1) from infected Calibrachoa plants. During the spring of 2003, petunia samples from Florida and California sent to testing services at Agdia, Inc (Elkhart IN) tested positive for CbMV by enzyme-linked immunosorbent assay (ELISA) and lateral flow immunoassay (ImmunoStrips). These samples also tested positive by carmovirus group-specific polymerase chain reaction (PCR) primers and by immunocapture PCR (2). RNA extracted from these samples with the RNeasy Plant Kit (Qiagen Inc., Valencia, CA) hybridized with a digoxigenin labeled probe derived from purified CbMV viral RNA. All plant samples that tested positive for CbMV were symptomless except one symptomatic sample that also tested positive for Tobacco mosaic virus. From samples that tested positive for CbMV only, mechanical inoculations were made to Chenopodium quinoa at a USDA-ARS greenhouse in Salinas, CA. Representative single, local lesions were used to inoculate additional C. quinoa plants. The resulting local lesions from these inoculations were freeze-dried and further used as virus inoculum (CbMV petunia). Similar inoculum was made with CbMV isolated from Calibrachoa plants (CbMV calibrachoa). Virus-free Petunia hybrida cultivars Surfinia 'Baby Pink' and Surfinia 'Violet' (Jackson and Perkins Inc., Somis, CA) were mechanically inoculated with CbMV petunia and CbMV calibrachoa. Four weeks postinoculation, all plants were tested using ELISA for the presence of CbMV. In greenhouse conditions, 14.3% of 'Baby Pink' plants were positive for CbMV petunia, whereas none were positive for CbMV calibrachoa. 'Violet' plants were 64.3 and 33.3% positive for CbMV petunia and CbMV calibrachoa, respectively. None of the positive plants expressed virus-like symptoms. Virus particles resembling those of CbMV were observed from infected petunia plants with transmission electron microscopy in leaf-dip preparations. To our knowledge, this is the first report of CbMV infecting petunia. Commercial reproduction of petunia plants and maintenance of genetic mother stock are usually by vegetative propagation. CbMV can be transmitted mechanically and is readily propagated along with its host. To produce healthy petunia plants, virus-free mother stock should be used, which requires regular screening of mother stock for CbMV. Reference: (1) H.-Y. Liu et al. Plant Dis. 87:167, 2003. (2) A. M. Harness et al. (Abstr.) Phytopathology 92:S34, 2002.