A utilização de marcadores moleculares pode servir para direcionar cruzamentos, confirmar novos híbridos e identificar genótipos para fins comerciais. Nesse contexto, o objetivo deste trabalho foi analisar a diversidade genética entre cultivares e híbridos de Brachiaria spp. e Panicum maximum usando marcadores moleculares do tipo RAPD (Polimorfismos de DNA amplificados ao acaso). Foram 22 genótipos analisados com 10 primers, os quais amplificaram 178 fragmentos polimórficos de DNA, que foram usados para estimar a similaridade genética por meio do coeficiente de Jaccard. Os valores de similaridade obtidos variaram de 0,066 a 0,841. A estrutura genética entre todos os genótipos estudados foi estimada pelo método UPGMA (Método de agrupamento com médias aritméticas não ponderadas), revelando três grupos distintos com altos valores de bootstrap (>89%). Os resultados demonstraram que a técnica RAPD oferece uma maneira rápida, relativamente barata e útil para a caracterização da diversidade genética entre as diferentes cultivares e híbridos de Brachiaria ssp. e P. maximum analisados.
Thrips are small insects (0.5-3.0 mm) with distinct habits and life histories characterized by haplodiploid sex determination. In general, low levels of genetic diversity have been reported in haplodiploid insects, although most reports focus on the order Hymenoptera. Therefore, we used RAPD markers to evaluate the structure and both inter- and intra-population genetic variability of Gynaikothrips uzeli (Thysanoptera: Phlaeothripidae). Six populations, three from Paraná state, southern Brazil, and three from Bahia, northeastern Brazil, were studied. Similarly to other haplodiploid insects, the genetic diversity of G. uzeli was reduced. This result is putatively related to the haplodiploid sex determination system, which yields little genetic variation, and to ecological traits of the studied species, such as the low dispersal abilities and life mode in leaf galls. All individuals were homogeneously clustered in their respective collection sites, forming two main groups in which populations from similar environments were more closely related. The analyzed populations were highly structured, and the genetic variation was higher among than within populations.
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