ABSTRACT
Resumen El cultivo intensivo de peces es una estrategia econòmicamente importante para producir alimento. Sin embargo, las prácticas de cultivo intensivo generan estrés oxidativo e inmunosupresión, lo que ocasiona pérdidas de la calidad del especimen y aumento en la mortalidad. Para contrarrestar estos efectos, se ha optado por la administración de vegetales como fuente de polifenoles con propiedades antioxidantes e inmunoestimulantes en peces carnívoros de cultivo. El objetivo de este trabajo fue describir los efectos de los polifenoles de origen vegetal como antioxidantes e inmunoestimulantes en peces carnívoros, y promover su uso como ingredientes funcionales en la acuicultura. Los vegetales como fuente de polifenoles tienen la capacidad de mejorar los sistemas de defensa inmune y antioxidante de las especies analizadas, con un tejido de mejor calidad nutricional y un mayor contenido endógeno de antioxidantes. No obstante, las propiedades biológicas de los polifenoles dependen del tipo y concentra ción en el vegetal, de la dosis y el tiempo de administración, así como de la matriz alimentaria, la cual determina la bioaccesibilidad y biodisponibilidad de los polifenoles en el organismo. Es la información generada sobre el efecto de los polifenoles en la calidad post mortem, por lo que se deben realizar más estudios.
Abstract Fish production by intensive aquaculture, is an economically important strategy to produce food. However, intensive fish farming generates oxidative stress and suppress the immune system, causing loss of product quality and increasing fish mortality rates. To diminish these effects, plants as a source of polyphenols with antioxidants and immunostimulant properties were administered to carnivorous farmed fish. The aim of this study was to describe the effects of plant polyphenols as antioxidants and immunostimulants on carnivorous fish, and to promote their use as functional ingredients in aquaculture. Plants as a source of polyphenols showed the ability to improve the immune and antioxidant defense systems of the analyzed species, resulting in a tissue of better nutritional quality and a higher endogenous antioxidant content. However, the biological properties of polyphenols are dependent on the type of plant and their concentration within it, the dose and the time of administration, as well as the food matrix, which determines their bioaccessibility and bioavailability in the organism. There is little information on the effec of polyphenols in post mortem quality; therefore, further studies should be conducted.
ABSTRACT
The defence mechanisms that are activated by methyl jasmonate (MJ) in fruits are not well understood. In this work, we studied the expression of defence genes in papaya fruit that are induced by the exposure to MJ and/or low temperatures. The papaya fruits Maradol were randomly divided into two groups: one group was the untreated control and the other was treated with 10-4 M of MJ. Half of the fruits from each of the two groups were stored after treatment for 5 days at 5ºC and 2 days at 20ºC. We studied the expression levels of the pdf1.1 and pdf1.2 genes by amplification from expression libraries created from the pulp and skin tissues of the papaya fruit. As a reference, the mRNA level of the 18s ribosomal gene was used. In the skin tissue, the expression levels of the pdf1.1 and pdf1.2 genes were higher immediately after MJ treatment compared to the control. Furthermore, the expression of pdf1.2 remained high after MJ treatment and subsequent storage compared to the control. It was therefore concluded that the activation of the pdf1.1 and pdf1.2 genes forms part of the molecular defence mechanism in fruits that is activated by exposure to MJ. To our knowledge, this is the first study that analyzes the gene expression in papaya fruit that is induced by the exogenous application of methyl jasmonate and cold treatment.