Pseudoplatystoma corruscans (Spix and Agassiz, 1829) and Pseudoplatystoma reticulatum (Eingenmann and Eigenmann, 1889) are large migratory catfishes of high biological importance and great commercial value in South America. Because fertile crossbreeds can be artificially produced in hatcheries, a high genetic proximity between these two Pimelodidae species is conceivable. Possible escape of crossbred specimens from pisciculture stations is a serious environmental concern. Despite their importance, knowledge of P. corruscans and P. reticulatum biology, ecology, population diversity and genetics is limited. In the present work, the genetic divergence between P. corruscans and P. reticulatum populations from the Paraná River Basin was analyzed on the basis of polymorphisms in ISSR fragments and in the hypervariable sequence of the mitochondrial DNA (mtDNA) control region. Estimates of intraspecific haplotype (h > 0.5) and nucleotide diversities (π < 0.01) indicate that P. corruscans and P. reticulatum have survived a historical population decline, followed by a demographic expansion. The interspecific polymorphisms within the mtDNA control region and ISSR fragments were suitable as diagnostic molecular markers and could be used to discriminate the two species. A unique Pseudoplatystoma specimen, captured in the Upper Paraná River Floodplain, was identified by these DNA diagnostic markers as a hybrid P. reticulatum × P. corruscans, which possibly escaped from pisciculture. The integrity of the natural population of P. corruscans in the Upper Paraná River is at risk of genetic introgression or homogenization due to the presence of hybrids and the transposition of P. reticulatum upstream through the Canal da Piracema at Itaipu Dam. Data presented herein improve the understanding of the genetic relatedness between P. corruscans and P. reticulatum and represent potential tools for future programs of conservation and surveillance of genetic introgression events and the genetic integrity of these populations. isolated fish populations, and this is especially threatening to the dispersion of species that undergo long-distance reproduction migrations, such as P. corruscans. Therefore, monitoring of populations is becoming essential for preserving both Pseudoplatystoma species. Molecular markers are fundamental for monitoring population genetic variability and for the surveillance of populations that are potentially at risk of losing their genetic integrity. In addition, they represent an important tool for studies of the genetic diversity and evolution of fishes. The availability of nuclear and mitochondrial DNA markers that are easily accessible and suitable for characterizing and discriminating P. corruscans and P. reticulatum is a fundamental requirement in the study and supervision of these populations. Moreover, these molecular markers could enable a better understanding of the genetic relatedness of these two species.ISSR (Inter Simple Sequence Repeats) fingerprinting is a feasible molecular tool that does ...
ABSTRACT. Brycon is one of the main genera of Neotropical freshwater fish. In Brazil, Brycon species have been found in many hydrographic basins, such as the Amazon, Paraná, Paraguay, and AraguaiaTocantins basins. We examined the phylogenetic relationships among the species Brycon orbignyanus, B. hilarii, B. cf. pesu, B. cephalus, B. falcatus, and B. gouldingi, using mitochondrial and nuclear molecular markers. Specimens of B. orbignyanus were collected in the Paraná River. Specimens of B. hilarii were collected in the Manso River. Specimens of B. cephalus were obtained from a fish farm, and 675 ©FUNPEC-RP www.funpecrp.com.br Genetics and Molecular Research 9 (2): 674-684 (2010) Phylogenetic relationships among Brycon species specimens of B. cf. pesu, B. falcatus and B. gouldingi were sampled in the Araguaia-Tocantins basin. DNA extraction was carried out using the phenol/chloroform method. Molecular polymorphism studies of Brycon species were carried out with the inter-simple sequence repeat (ISSR) technique, using the total DNA of six specimens of each species. In DNA amplification of B. cf. pesu, eight specimens were used. The partial sequence of mitochondrial cytochrome b was amplified by PCR. The PCR products were used directly in sequencing reactions. Each ISSR primer produced from 7 to 14 scorable and reproducible bands. The (GGAC) 3 A and (GGAC) 3 C primers produced the greatest number of species-specific bands. A 264-bp fragment, corresponding to the partial region of mitochondrial DNA cytochrome b, was sequenced and used for analysis. According to the phylogenetic tree obtained from the data, these Brycon species can be divided into two clades: one comprised only B. cf. pesu, and the second comprised the remaining Brycon species. We conclude that ISSR primers can be used for the identification of species-specific bands in fish, such as Brycon spp.
ABSTRACT. The morphological discrimination between the speciesAstyanax altiparanae and A. asuncionensis of the upper Paraná River and Paraguay River basins, respectively, has always been difficult. Two D-loop haplogroups of A. altiparanae are known, one with the presence (AltoPR) or the absence (AltoPR-D) of a 32-bp block similar to that in A. asuncionensis. We examined these samples to characterize A. altiparanae
RESUMOA diversidade genética entre três linhagens de codorna (Coturnix japônica) foi avaliada utilizando-se a técnica de random amplified polymorphic DNA (RAPD). As linhagens selecionadas para produção de ovos foram identificadas como amarela, azul e vermelha por meio de anilhas no pé esquerdo. Seis primers de RAPD amplificaram 55 loci, os quais geraram padrão de bandas intensa e reproduzível em gel de agarose. Os resultados indicaram polimorfismos dentro e entre as linhagens. A similaridade de Jaccard média e o índice de diversidade Shannon revelaram alta diversidade dentro das linhagens de codornas. O teste de Mantel por meio do algoritmo unweighted pair-group method using arithmetic average (UPGMA) e a dispersão de coordenadas principais indicaram diferenciação genética significativa, embora em baixo nível. Os resultados sugerem que a diversidade genética dentro e entre as linhagens de codornas da Universidade Estadual de Maringá são promissoras para uso em programas de melhoramento. (Furlan et al., 1998). A coturnicultura brasileira é voltada principalmente para a produção de ovos, cujo produto é bem aceito pelos consumidores. A carne é considerada exótica, e o seu consumo ainda é pequeno devido ao preço alto para os padrões brasileiros.
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