Nicolás Bejerman

Taxonomy of the order Mononegavirales: update 2016

In 2016, the order Mononegavirales was emended through the addition of two new families (Mymonaviridae and Sunviridae), the elevation of the paramyxoviral subfamily Pneumovirinae to family status (Pneumoviridae), the addition of five free-floating genera (Anphevirus, Arlivirus, Chengtivirus, Crustavirus, and Wastrivirus), and several other changes at the genus and species levels. This article presents the updated taxonomy of the order Mononegavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV).

First Report of a Rhabdovirus Infecting Alfalfa in Argentina

Alfalfa (Medicago sativa L.) is a major forage crop in Argentina with an estimated cultivated area of 4 million ha in the 2009-2010 season, which constitutes a primary component for the animal production chain. In early summer of 2010, alfalfa plants showing virus-like symptoms were identified in 20 commercial fields in La Pampa Province with 95% disease prevalence. Diseased plants had shortened internodes, a bushy appearance, deformations, puckering, epinasty of leaflet blades, vein enations, and varying sized papillae on the adaxial leaflet surfaces. Similar symptoms were observed in alfalfa crops in Buenos Aires, Cordoba, Santa Fe, and Santiago del Estero provinces. Electron microscopy (EM) and molecular assays were performed on leaf tissue from one asymptomatic and two symptomatic plants. EM of ultrathin sections revealed membrane-bound bullet-shaped particles associated with the endoplasmic reticulum of phloem cells from symptomatic plants only. Total RNA was extracted from symptomatic and asymptomatic plants with the RNeasy Plant Mini Kit (Qiagen, Hilden, Germany) for a template in one-step reverse transcription (RT)-PCR assays with the Access RT-PCR Kit (Promega, Madison, WI). RT-PCR assays employed degenerate primers targeting conserved regions of plant rhabdovirus polymerase (L) genes (2). An amplicon of approximately 1 kilobase pairs (detected only from symptomatic plants) was gel purified with the Wizard SV Gel and PCR Clean-Up System (Promega), cloned into pGEM-T Easy Vector System (Promega), and sequenced. Three independents clones were sequenced in both directions at Macrogen Inc. (Korea Republic) to generate a consensus sequence (GenBank Accession No. HQ380230) and compared to sequences of other plant rhabdoviruses available on GenBank. The partial L gene sequence of the alfalfa-infecting rhabdovirus shared highest nucleotide (68.0%) and amino acid (76.5%) sequence identity with the cytorhabdovirus Strawberry crinkle virus (Accession No. AY331390). A phylogenetic tree based on partial amino acid sequences of the polymerase gene indicated the alfalfa-infecting virus was more closely related to cytorhabdoviruses than to nucleorhabdoviruses. Symptoms observed resembled those reported for alfalfa plants infected with a plant rhabdovirus named Alfalfa enation virus (1), which has never been fully characterized. Collectively, the data implicate the observed rhabdovirus as the etiological agent. To our knowledge, this is the first report in Argentina (and South America) of a rhabdovirus infecting alfalfa. Additional field surveys and monitoring of vector/s and yield losses need to be conducted. References: (1) B. Alliot and P. A. Signoret. Phytopathol. Z. 74:69, 1972. (2) R. L. Lamprecht et al. Eur. J. Plant Pathol. 123:105, 2009.

Complete nucleotide sequence of an Argentinean isolate of sweet potato virus G

Sweet potato virus G belongs to the largest plant virus genus Potyvirus. This virus was detected for the first time in Argentina and then sequenced using the method of next-generation pyrosequencing. The complete genome was found to be 10,798 nucleotides excluding the poly-A tail with a predicted genome organization typical for a member of the genus Potyvirus. This is the first report of the complete genomic sequence of a SPVG isolated from South America.

Molecular characterization of Sunflower chlorotic mottle virus: a member of a distinct species in the genus Potyvirus

The complete nucleotide (nt) and deduced amino acid (aa) sequences of the C (common) and CRS (chlorotic ringspot) Argentine strains of SuCMoV have been determined. The SuCMoV-C RNA genome consists of 9,965 nt, whereas indels within the P1 coding region of SuCMoV-CRS make its genomic length 15 nt shorter. Nucleotide and aa sequence identities between the polyproteins of the C and CRS strains of SuCMoV were 92.3 and 95.6%, respectively. Pairwise comparisons between the polyproteins of the C and CRS strains of SuCMoV and the viruses of the Potato virus Y (PVY) subgroup revealed identities of 66.5–66.9% at the nt level and 69.7–69.8% at the aa level. These results and phylogenetic analyses show that although SuCMoV strains cluster together with the potyviruses belonging to the PVY subgroup, SuCMoV should be considered a member of a distinct species in the genus Potyvirus.

Complete genome sequence of a new enamovirus from Argentina infecting alfalfa plants showing dwarfism symptoms

Alfalfa dwarf disease, probably caused by synergistic interactions of mixed virus infections, is a major and emergent disease that threatens alfalfa production in Argentina. Deep sequencing of diseased alfalfa plant samples from the central region of Argentina resulted in the identification of a new virus genome resembling enamoviruses in sequence and genome structure. Phylogenetic analysis suggests that it is a new member of the genus Enamovirus, family Luteoviridae. The virus is tentatively named “alfalfa enamovirus 1” (AEV-1). The availability of the AEV-1 genome sequence will make it possible to assess the genetic variability of this virus and to construct an infectious clone to investigate its role in alfalfa dwarfism disease.

Biological and molecular characterization of an isolate of Pelargonium zonate spot virus infecting sunflower in Argentina.

Sunflower (Helianthus annuus) plants showing chlorotic concentric rings and line patterns on the leaves were observed in field crops near Parana city (Entre Rios, Argentina). Virus-enriched preparations examined with a trasmission electron microscope contained quasi-spherical particles ca. 33 nm in diameter. Symptomatic sunflower samples were serologically negative for six known members of the family Bromoviridae when tested with commercial antisera, but in later tests gave a positive reaction with a Pelargonium zonate spot virus (PZSV) antiserum. A virus was mechanically transmitted to 16 plant species belonging to four families. Its complete genomic sequence, obtained by pyrosequencing, had an organization typical of members of the family Bromoviridae. Three contigs resulting from de novo assembly of deep sequencing reads showed 90.0%, 94.7% and 93.9% nucleotide identity with RNA-1 (GenBank accession No. AJ272327), RNA-2 (AJ272328) and RNA-3 (AJ272329), respectively, of Pelargonium zonate spot virus (PZSV), a member of the genus Anulavirus described in Italy. Therefore, the virus associated with chlorotic concentric rings and line pattern symptoms in sunflower was identified as an isolate of PZSV. To our knowledge, this is the first reference to PZSV infecting sunflower worldwide and the first report of its presence in South America.

Development of a full-length infectious clone of sunflower chlorotic mottle virus (SuCMoV).

A full-length cDNA clone (p35SuCMoV) of the sunflower chlorotic mottle virus common strain (SuCMoV-C) genomic RNA was constructed. Three cDNA fragments covering the whole genome of SuCMoV-C were cloned between a cauliflower mosaic virus 35S promoter and a nopaline synthase terminator. Mechanical inoculation of sunflower and Nicotiana occidentalis seedlings with p35SuCMoV DNA led to systemic infection. Symptoms induced by p35SuCMoV were similar to those caused by the wild-type SuCMoV-C but appeared four days later. Infection was confirmed by a western blot test, electron microscopy, RT-PCR and inoculation of progeny virions to sunflower seedlings. This is the first report about the construction of a biologically active, full-length cDNA copy of the SuCMoV-C RNA genome.

Genome characterization of an Argentinean isolate of alfalfa leaf curl virus

We investigated the molecular characteristics of an Argentinean isolate of alfalfa leaf curl virus (ALCV-Arg), a virus of the genus Capulavirus in the family Geminiviridae that was isolated from alfalfa plants showing dwarfism. The genome was found to be 2,750 nucleotides in length. In pairwise comparisons, this ALCV isolate shared 83.2% to 92.6% sequence identity with European ALCV isolates. Sequence comparisons and phylogenetic analysis showed that this isolate combines features of strains A and B of ALCV. Recombination analysis showed that ALCV-Arg is a recombinant isolate that was generated by intraspecific recombination between ALCV strains A and B. The results of this study not only show that ALCV-Arg is unique because it combines features of strains A and B but also show that ALCV naturally infects this forage crop on the American continent.

Development and validation of PCR assays for detection of alfalfa dwarf disease-associated viruses in Australian lucerne pastures

In 2010, a severe disease of lucerne (Medicago sativa L.) named alfalfa dwarf disease (ADD) was reported in Argentina. High throughput sequencing of diseased plants indicated the presence of five viruses, the (−) ssRNA virus, alfalfa dwarf virus (ADV), the (+) RNA viruses, alfalfa mosaic virus (AMV), bean leafroll virus (BLRV) and alfalfa enamovirus 1 (AEV-1) and the ssDNA virus, alfalfa leaf curl virus (ALCV). In this study, we determined which ADD-associated viruses are present in Australian lucerne that showed diverse virus-like symptoms. A duplex RT-PCR was developed for simultaneous detection of ADV and AMV using a cloned non-infectious ADV RNA fragment as positive control. Similarly, the presence of BLRV and AEV-1 was determined by duplex RT-PCR, and ALCV by PCR. Only AMV and BLRV that are endemic to Australia were detected. None of the novel exotic viruses ADV, AEV-1 and ALCV were detected in lucerne samples collected between 2015 and 2017. However, AMV and BLRV were detected in 78% and 70% of tested samples, respectively. Based on analysis of coat protein (CP) nucleotide sequences, Australian BLRV isolates are closely related to each other and to the Argentine Manfredi isolate. Phylogenetic analyses based on CP gene nucleotide sequences confirmed separation of AMV isolates into two subgroups. The majority of AMV isolates, including all those from Argentina and Australia, clustered in subgroup I with isolates from various hosts and geographic origins. All Australian AMV isolates were closely related to AMV isolated from ADD-affected lucerne in Argentina.

Molecular characterization of yerba mate chlorosis-associated virus, a putative cytorhabdovirus infecting yerba mate ( Ilex paraguariensis )

We present the molecular characterization of a new virus infecting yerba mate (Ilex paraguariensis St. Hil.) in Argentina. Deep sequencing of diseased yerba mate plants showing chlorotic linear patterns, chlorotic rings, and vein yellowing resulted in the identification of a new virus resembling plant rhabdoviruses in sequence and genome structure. We have determined the complete genome sequence of this virus, which is 12,876 nt long. Seven open reading frames (ORFs) were identified in the antigenomic orientation of the negative-sense, single-stranded viral RNA, in the order 3′-N-P-P3-P4-M-G-L-5′. Phylogenetic analysis suggested that the described virus is a new member of the genus Cytorhabdovirus, which was supported by the observation of rhabdovirus-like particles within the cytoplasm of infected yerba mate cells. The virus has been tentatively named “yerba mate chlorosis-associated virus” (YmCaV). The availability of the YmCaV genome sequence will contribute to assessing the genetic variability of this virus and determining its role in this yerba mate disease.