COINFECCIÓN NATURAL DE VIRUS DE ARN EN CULTIVOS DE PAPA (Solanum tuberosum subsp. Andigena) EN ANTIOQUIA (COLOMBIA) / Natural coinfection of RNA viruses in potato (Solanum tuberosum subsp. Andigena) crops in Antioquia (Colombia)

RESUMEN Las enfermedades virales son uno de los principales problemas fitopatológicos de la papa. Con el fin de determinar los virus más prevalentes en cultivos de papa var. Diacol Capiro en el oriente Antioqueño (Colombia), se evaluó mediante RT-qPCR la presencia de diez virus de ARN (PVY, PVA, PVV, TaLMV, PVS, PLRV, PYVV, PVX, ToRSV y PMTV) en 36 muestras de tejido foliar. Los resultados indicaron la ocurrencia de cinco de los diez virus evaluados, con niveles de prevalencia de 88,9 %, 75 %, 75 %, 41,7 % y 25 % para PVY, PVX, PYVV, PLRV y PVS, respectivamente. Con fines comparativos, cuatro virus también se evaluaron mediante ELISA, siendo detectados PVS (80,5 %), PVY (55 %) y PLRV (5,5 %); mientras que PVX no fue encontrado con esta prueba. La comparación de estas técnicas mediante la razón de prevalencia (RP), indicó que la RT-qPCR ofrece niveles superiores de detección con valores de RP = 1,6 y RP = 7,5 para los virus PVY y PLRV; mientras que para PVS la ELISA detectó más muestras positivas que RT-qPCR (RP = 3,22), evidenciándose la necesidad de diseñar nuevos cebadores ajustados a la diversidad de este virus en Antioquia. La coinfección mixta más frecuente fue PVY-PYVV-PVX (22,2 %), mientras que los cinco virus se encontraron en el 11,1 % de las muestras. Finalmente, utilizando secuenciación Sanger de la cápside y NGS para los genomas completos, se confirmó la circulación de todos los virus detectados en los cultivos de papa del oriente Antioqueño. Estos resultados señalan la necesidad de fortalecer los programas de manejo integrado de enfermedades virales en Antioquia.

ABSTRACT Viral diseases are one of the main phytopathological problems affecting potato crops worldwide. To determine the most prevalent viruses in potato var. Diacol Capiro crops in Eastern Antioquia, 36 leaf samples were tested for the presence of PVY, PVA, PVV, TaLMV, PVS, PLRV, PYVV, PVX, ToRSV and PMTV using RT-qPCR. Detected viruses included PVY, PVX, PYVV, PLRV and PVS with prevalence levels of 88.9 %, 75.0 %, 75.0 %, 41.7 % and 25.0 %, respectively. PVS, PVY, PLRV and PVX were also tested by ELISA. PVS, PVY and PLRV tested positive in 80.5 %, 55.0 % and 5.5 % of samples; PVX was not detected. Prevalence Ratios (PR) suggests that detection is higher for PVY (PR = 1.6) and PLRV (PR = 7.5) using RT-qPCR. ELISA worked better for PVS with a PR of 3.2; this result suggests that the RT-qPCR primers used for PVS must be adjusted to reflect the genome diversity of virus in Antioquia. The most frequent coinfection was PVY-PYVV-PVX, which occurred in 22.2 % of samples; coinfection with PVY, PVX, PYVV, PLRV and PVS was present in 11.1 % of samples. The circulation of these viruses in Eastern Antioquia was further confirmed using Sanger and high-throughput sequence. This work highlights the need to strengthen integrated disease management programs of viruses in Antioquia.

Cucurbit aphid-borne yellows virus from melon plants in Brazil is an interspecific recombinant.

Melon plants with severe yellowing symptoms from in Brazil were analyzed by high-throughput sequencing. Sequences homologous to the genome of the polerovirus cucurbit aphid-borne yellows virus (CABYV) were frequently retrieved. Two draft CABYV genomes were assembled from two pooled melon samples that contained an identical putative recombinant fragment in the 3' region with an unknown polerovirus. The complete genomes of these isolates revealed by Sanger sequencing share 96.8% nucleotide identity, while both sequences share 73.7% nucleotide identity with a CABYV-N isolate from France. A molecular-clock analysis suggested that CABYV was introduced into Brazil ~ 68 years ago.

Development of a new tobamovirus-based viral vector for protein expression in plants.

Plants are becoming an interesting alternative system for the heterologous production of pharmaceutical proteins, providing a more scalable, cost-effective, and biologically safer option than the current expression systems. The development of plant virus expression vectors has allowed rapid and high-level transient expression of recombinant genes, and, in turn, provided an attractive plant-based production platform. Here we report the development of vectors based on the tobamovirus Pepper mild mottle virus (PMMoV) to be used in transient expression of foreign genes. In this PMMoV vector, a middle part of the viral coat protein gene was replaced by the green fluorescent protein (GFP) gene, and this recombinant genome was assembled in a binary vector suitable for plant agroinoculation. The accumulation of GFP was evaluated by observation of green fluorescent signals under UV light and by western blotting. Furthermore, by using this vector, the multiepitope gene for chikungunya virus was successfully expressed and confirmed by western blotting. This PMMoV-based vector represents an alternative system for a high-level production of heterologous protein in plants.

Complete genome sequence of melon yellowing-associated virus from melon plants with the severe yellowing disease in Brazil.

Here, we describe the complete genome sequence of melon yellowing-associated virus (MYaV), found in melon plants with severe yellowing disease, determined by high-throughput and Sanger sequencing. MYaV has an RNA genome of 9073 nucleotides plus a poly(A) tail. At least six open reading frames were predicted, with a typical carlavirus genomic organisation. Phylogenetic analysis of the complete genome sequence and the amino acid sequences of the RNA-dependent RNA polymerase confirmed that MYaV belongs to the genus Carlavirus, with the highest genome-wide nucleotide sequence identity of 59.8% to sweet potato yellow mottle virus.