Acylsugars protect Nicotiana benthamiana against insect herbivory and desiccation.

KEY MESSAGE: Nicotiana benthamiana acylsugar acyltransferase (ASAT) is required for protection against desiccation and insect herbivory. Knockout mutations provide a new resource for investigation of plant-aphid and plant-whitefly interactions. Nicotiana benthamiana is used extensively as a transient expression platform for functional analysis of genes from other species. Acylsugars, which are produced in the trichomes, are a hypothesized cause of the relatively high insect resistance that is observed in N. benthamiana. We characterized the N. benthamiana acylsugar profile, bioinformatically identified two acylsugar acyltransferase genes, ASAT1 and ASAT2, and used CRISPR/Cas9 mutagenesis to produce acylsugar-deficient plants for investigation of insect resistance and foliar water loss. Whereas asat1 mutations reduced accumulation, asat2 mutations caused almost complete depletion of foliar acylsucroses. Three hemipteran and three lepidopteran herbivores survived, gained weight, and/or reproduced significantly better on asat2 mutants than on wildtype N. benthamiana. Both asat1 and asat2 mutations reduced the water content and increased leaf temperature. Our results demonstrate the specific function of two ASAT proteins in N. benthamiana acylsugar biosynthesis, insect resistance, and desiccation tolerance. The improved growth of aphids and whiteflies on asat2 mutants will facilitate the use of N. benthamiana as a transient expression platform for the functional analysis of insect effectors and resistance genes from other plant species. Similarly, the absence of acylsugars in asat2 mutants will enable analysis of acylsugar biosynthesis genes from other Solanaceae by transient expression.

Medios de cultivo líquidos: un avance para la micropropagación comercial de zábila (Aloe barbadensis Mill.) / Liquid medium culture: an approach for the commercial micropropagation of aloe (Aloe barbadensis Mill.)

La micropropagación es una alternativa para la producción comercial de plantas de zábila (Aloe barbadensis Mill.) limitada por los altos costos de producción. Con el objetivo de prescindir de los agentes gelificantes, reduciendo costos, se comparó el medio de cultivo líquido con el medio de cultivo gelificado en las diferentes etapas de micropropagación de la zábila. En la etapa de establecimiento se observó mayor porcentaje de explantes contaminados en el medio de cultivo líquido estático (25.55 %) que en el medio gelificado (11.11 %); y aunque el resto de los explantes se establecieron independientemente de la condición del medio de cultivo, en el medio líquido alcanzaron mayor altura (3.81 cm) que en el medio gelificado (3.03 cm). En la etapa de multiplicación, la altura de los explantes (entre 4.43 y 6.01 cm) fue superior en los recipientes de inmersión temporal automatizado (RITA®) en comparación con el medio gelificado (entre 3.24 y 3.42 cm); sin diferencias significativas entre el número de brotes/explante. Todos los brotes enraizaron a los 30 días independientemente del medio de cultivo empleado (líquido estático y gelificado), sin observar variaciones en la altura del brote y, número y longitud de las raíces. El empleo de los medios de cultivo líquidos y la implementación de los sistemas de inmersión temporal tipo RITA® permiten reducir los costos de producción al prescindir de los agentes gelificantes, lo que representa un avance para la micropropagación comercial de zábila.

Micropropagation is considered a successful alternative for aloe (Aloe barbadensis Mill.) plant production. However, it has limited use due to the high production cost. Liquid media were compared to agar-gelled medium during all micropropagation stages of aloe to reduce the cost for gelling agent used. In the establishment stage, there was a higher percentage of contaminated explants in static liquid medium (25.55%) than those cultured in agar-gelled medium (11.11%), although all the explants were established independently of the culture medium used, higher height (3.81 cm) was observed in liquid medium than those growing in agar-gelled medium (3.03 cm). In the multiplication stage, explant height was higher in the recipients used for automated temporary immersion system (RITA®) (4.43 - 6.01 cm) than those cultured in agar-gelled medium (3.24 - 3.42 cm), there was no significant difference for number of shoots/explant. All shoots had roots at 30 days independently of used culture media (static liquid or agar-gelled media). Shoot height, number and root length had similar values in both culture media. The implementation of liquid media and automated temporary Immersion system RITA® may allow to reduce production costs of gelling agent used, it represents an approach for the commercial micropropagation of aloe.