RESUMO
ABSTRACT Yellow passion fruit crop is affected by multiple phytosanitary problems. Among the main ones are viruses of the genera Potyvirus (soybean mosaic virus, SMV), Cucumovirus (cucumber mosaic virus, CMV), Tymovirus (tymovirus passiflorae, PYMV) and Begomovirus (passionfruit leaf distortion virus, PLDV). Information about the prevalence and interaction between these viruses is scarce. The objective of this study was to verify the prevalence and identify the types of mixed viral infections of potyvirus, cucumovirus, tymovirus, and begomovirus in passion fruit crops in Valle del Cauca, Colombia. Passion fruit leaf samples with symptoms were collected and their nucleic acids were purified. Virus identification was performed by PCR using universal primers by viral genus, and specific primers for the SMV, CMV, PFYMV and PLDV viruses. The incidence of each virus by municipality was analyzed and the severity of the symptoms was compared with the diagnosis made. In total, 66 samples were collected in the municipalities of Toro, Dagua, Roldanillo, Bolívar, La Unión and El Cerrito. It was established that the most prevalent viruses are PLDV followed by SMV and CMV. The presence of PYMV was not detected in the samples analyzed. The presence of double and triple infections among potyvirus, cucumovirus and begomovirus were identified for the first time, finding greater severity of symptoms with a greater number of viruses identified per sample. This research provides key results for the design of control strategies for viral diseases in passion fruit.
RESUMEN El cultivo de maracuyá amarillo es afectado por múltiples problemas fitosanitarios. Entre los principales, están los virus de los géneros Potyvirus (soybean mosaic virus, SMV), Cucumovirus (cucumber mosaic virus, CMV), Tymovirus (passion fruit yellow mosaic virus, PFYMV) y Begomovirus (passionfruit leaf distortion virus, PLDV). Información acerca de la prevalencia e interacción entre estos virus es escasa. El objetivo del presente estudio fue verificar la prevalencia e identificar los tipos de infecciones virales mixtas de potyvirus, cucumovirus, tymovirus y begomovirus en cultivos de maracuyá en Valle del Cauca, Colombia. Muestras foliares de maracuyá con síntomas virales fueron recolectadas y se purificaron sus ácidos nucleicos. La identificación de los virus se realizó por PCR empleando cebadores universales por género viral, y cebadores específicos para los virus SMV, CMV, PFYMV y PLDV. Se analizó la incidencia de cada virus por municipio y se comparó la severidad de los síntomas con el diagnóstico realizado. En total se colectaron 66 muestras en los municipios de Toro, Dagua, Roldanillo, Bolívar, La Unión y El Cerrito. Se estableció que los virus con mayor prevalencia fueron PLDV, seguido por SMV y CMV. No se detectó la presencia de PFYMV en las muestras analizadas. Se identificó por primera vez la presencia de infecciones dobles y triples entre potyvirus, cucumovirus y begomovirus, encontrándose mayor severidad de síntomas a mayor número de virus identificado por muestra. La presente investigación provee resultados clave para el diseño de estrategias de control de enfermedades virales en maracuyá.
RESUMO
With the continuous deterioration of arable land due to an ever-growing population, improvement of crops and crop protection have a fundamental role in maintaining and increasing crop productivity. Alternatives to the use of pesticides encompass the use of biological control agents, generation of new resistant crop cultivars, the application of plant activator agrochemicals to enhance plant defenses, and the use of gene editing techniques, like the CRISPR-Cas system. Here, we test the hypothesis that epigenome editing, via CRISPR activation (CRISPRa), activate tomato plant defense genes to confer resistance against pathogen attack. We provide evidence that edited tomato plants for the PATHOGENESIS-RELATED GENE 1 gene (SlPR-1) show enhanced disease resistance to Clavibacter michiganensis subsp. michiganensis infection. Resistance was assessed by evaluating disease progression and symptom appearance, pathogen accumulation, and changes in SlPR-1 gene expression at different time points. We determined that CRISPRa-edited plants develop enhanced disease-resistant to the pathogen without altering their agronomic characteristics and, above all, preventing the advancement of disease symptoms, stem canker, and plant death.
Assuntos
Solanum lycopersicum , Ativação Transcricional , Clavibacter/genética , Sistemas CRISPR-Cas , Edição de Genes , Produtos Agrícolas/genética , Doenças das Plantas/genéticaRESUMO
RESUMEN Virus del género Begomovirus infectan cultivos de importancia económica en todo el mundo, incluyendo ají. A la fecha, en Colombia no hay reportes de la presencia de begomovirus infectando este cultivo, por lo que el objetivo de esta investigación fue identificar la presencia de virus de este género en ají empleando estrategias moleculares. Se colectaron 197 muestras de ají en diez municipios del Valle del Cauca. Se extrajo el DNA genómico total vegetal y mediante PCR se detectó la presencia de begomovirus. Para establecer la identidad molecular del virus se amplificaron fragmentos de 1,4 kb de muestras colectadas en Palmira y Vijes. Los fragmentos fueron clonados, secuenciados y analizados. Se encontró que el 85,7 % de las muestras de ají evaluadas fueron positivas para begomovirus. Los análisis de secuencia de los fragmentos virales de 1,4 kb arrojaron una identidad de 91,8 % entre ellos y los de secuencia de nucleótidos de los virus aislados en Vijes y Palmira mostró que éstos presentan los valores de identidad más altos (87,2 % y 86,6 %) con el virus de la distorsión de la hoja de maracuyá, un begomovirus aislado de maracuyá en Colombia. Estos análisis estarían indicando que este begomovirus aislado de ají podría ser una nueva especie. De acuerdo con la literatura, este es el primer reporte de un begomovirus infectando cultivos de ají en Colombia.
ABSTRACT Viruses of the genus Begomovirus infect crops of economic importance around the world, including pepper. To date, in Colombia there are no reports of the presence of begomoviruses infecting this crop; therefore, this research work aimed to identify the presence of viruses of this genus in pepper using molecular strategies. Around 197 pepper samples were collected in ten municipalities in Valle del Cauca. Total plant genomic DNA was extracted, and the presence of begomoviruses was detected by using PCR. In order to establish the molecular identity of the virus, fragments of 1.4 kb were amplified from samples collected in Palmira and Vijes municipalities. The fragments obtained were cloned, sequenced, and analyzed. The results show that about 85.7 % of the pepper samples evaluated were positive for begomoviruses. Sequence analysis of the viral fragments of 1.4 kb showed an identity of 91.8 % among them. The nucleotide sequence analysis of the begomoviruses isolated in Vijes and Palmira showed its highest identity values (87.2 % and 86.6 %) with the passion fruit leaf distortion virus, a begomovirus that is affecting passion fruit crops in Colombia. These sequences analyze would indicate that this begomovirus isolated from pepper could be a new species that has not been reported worldwide. To our knowledge, this is the first report of a begomovirus infecting pepper crops in Colombia.