Variabilidad genética del pez Lutjanus guttatus (Perciformes: Lutjanidae) mediante el uso de microsatélites en Costa Rica / Genetic variability of the fish Lutjanus guttatus (Perciformes: Lutjanidae) using microsatellites in Costa Rica

Introducción: El pargo mancha es un pez marino de alto consumo e interés comercial en Costa Rica que está sometido a una fuerte presión pesquera, la cual puede afectar la diversidad genética y generar problemas por depresión endogámica. Objetivo: Evaluar el estado genético de la población de Lutjanus guttatus mediante el uso microsatélites. Métodos: Se recolectaron muestras entre el 2018 y 2019 y se estudiaron 44 individuos de cada una de las localidades del Golfo de Nicoya y Golfo Dulce. Se realizó la extracción de ADN y la amplificación de diez loci con microsatélites mediante PCR, para la determinación del genotipo, análisis de diversidad genética y estructura poblacional. Resultados: Los parámetros de diversidad indican un elevado polimorfismo asociado con un alto número de alelos obtenidos por locus, pero con bajos niveles de heterocigosidad observada en comparación con la esperada (Ho= 0.774 y 0.800 y He= 0.948 y 0.954 para Golfo de Nicoya y Golfo Dulce, respectivamente). No hay evidencia suficiente para decir que las dos poblaciones son distintas (FST= 0.00264, P > 0.05). La desviación del Equilibrio de Hardy-Weinberg indica la posible mezcla de organismos de origen distinto a los del medio silvestre. Conclusiones: L. guttatus tiene niveles altos de diversidad genética, no hay evidencia de diferenciación en subpoblaciones genéticas, lo que en manejo pesquerías se considera una sola población panmíctica. La posible mezcla de individuos de origen distinto al silvestre sugiere la presencia de organismos de un programa de repoblación o de cultivos comerciales en la región. El uso de marcadores genéticos se recomienda para el monitoreo, además, en programas de repoblación y evaluar su efecto.

Introduction: The spotted snapper is a high-consumption and commercially important marine fish in Costa Rica, subjected to heavy fishing pressures, which can affect genetic diversity and generate problems due to inbreeding depression. Objective: To evaluate the genetic status of the population of Lutjanus guttatus using microsatellites. Methods: Samples were collected between 2018 and 2019, and 44 individuals from each of the localities of the Gulf of Nicoya and the Gulf of Dulce were studied. DNA extraction and amplification of ten loci with microsatellites using PCR were performed, followed by genotyping, analysis of genetic diversity, and population structure. Results: Diversity parameters indicate a high polymorphism associated with a high number of alleles obtained per locus, but with low levels of observed heterozygosity compared to expected (Ho= 0.774 and 0.800, and He= 0.948 and 0.954 for the Gulf of Nicoya and Gulf of Dulce, respectively). There is not enough evidence to say that the two populations are distinct (FST= 0.00264, P > 0.05). Deviation from Hardy-Weinberg equilibrium was recorded, indicating possible mixing of organisms of different origin from the wild environment. Conclusions: L. guttatus presents high levels of genetic diversity, without evidence of differentiation in genetic subpopulations. For fisheries management purposes, they would be considered a single panmictic population. The possible mixing with wild individuals suggests the presence of organisms derived from a restocking or commercial cultivation program carried out in the region. The use of genetic markers is recommended to maintain monitoring, follow up on restocking programs and evaluate their effect.

Inbred strains of zebrafish exhibit variation in growth performance and myostatin expression following fasting.

Although the zebrafish (Danio rerio) has been widely utilized as a model organism for several decades, there is little information available on physiological variation underlying genetic variation among the most commonly used inbred strains. This study evaluated growth performance using physiological and molecular markers of growth in response to fasting in six commonly used zebrafish strains [AB, TU, TL, SJA, WIK, and petstore (PET) zebrafish]. Fasting resulted in a standard decrease in whole blood glucose levels, a typical vertebrate glucose metabolism pattern, in AB, PET, TL, and TU zebrafish strains. Alternatively, fasting did not affect glucose levels in SJA and WIK zebrafish strains. Similarly, fasting had no effect on myostatin mRNA levels in AB, PET, TU, and WIK zebrafish strains, but decreased myostatin-1 and -2 mRNA levels in SJA zebrafish. Consistent with previous work, fasting increased myostatin-2 mRNA levels in TL zebrafish. These data demonstrate that variation is present in growth performance between commonly used inbred strains of zebrafish. These data can help future research endeavors by highlighting the attributes of each strain with regard to growth performance so that the most fitting strain may be utilized.