Thaís Souto Bignotto scite author profile

Background Giardia duodenalis infects humans and other mammals by ingestion of cysts in contaminated water or food, or directly in environments with poor hygiene. Eight assemblages, designated A–H, are described for this species.Methodology/Principal FindingsWe investigated by microscopy or by direct immunofluorescence technique the occurrence of G. duodenalis in 380 humans, 34 animals, 44 samples of water and 11 of vegetables. G. duodenalis cysts present in samples were genotyped through PCR-RFLP of β giardin and glutamate dehydrogenase (gdh) genes and sequencing of gdh. The gdh gene was amplified in 76.5% (26/34) of the human faeces samples with positive microscopy and in 2.9% (1/34) of negative samples. In 70.4% (19/27) of the positive samples were found BIV assemblage. In two samples from dogs with positive microscopy and one negative sample, assemblages BIV, C, and D were found. Cysts of Giardia were not detected in water samples, but three samples used for vegetable irrigation showed total coliforms above the allowed limit, and Escherichia coli was observed in one sample. G. duodenalis BIV was detected in two samples of Lactuca sativa irrigated with this sample of water. BIV was a common genotype, with 100% similarity, between different sources or hosts (humans, animals and vegetables), and the one most often found in humans.Conclusions/SignificanceThis is the first study in Brazil that reports the connection among humans, dogs and vegetables in the transmission dynamics of G. duodenalis in the same geographic area finding identical assemblage. BIV assemblage was the most frequently observed among these different links in the epidemiological chain.

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Genetic diversity of invasive and native Cichla (Pisces: Perciformes) populations in Brazil with evidence of interspecific hybridization

Oliveira

Prioli

et al. 2006

Journal of Fish Biology

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Invasive and native populations of the Amazonian fishes 'peacock bass' Cichla monoculus and of a not yet described species 'blue tucunare´' here referred as Cichla sp. 'Azul' were analysed for genetic diversity using the hypervariable domain of the mitochondrial DNA (mtDNA) control region plus steady diagnostic random amplified polymorphic DNA loci. There is no detailed historical record of the introduction of Cichla species into the Upper Parana´River basin, where they became invasive and a potential threat to local ichthyofauna. Genetic diversity among invasive populations confirmed the hypothesis of multiple introductions in this hydrographic basin. Moreover, a large and previously unknown population of natural fertile hybrids between C. cf. monoculus and Cichla sp. 'Azul' was identified in the Itaipu hydroelectric reservoir and in the floodplain of the Upper Parana´River. Crossbred morphotypes were similar to C. cf. monoculus, but their morphological identification was not unequivocal. This hybrid population was characterized by high genetic diversity and it was composed of hybrids possessing concurrently nuclear DNA fragments specific for C. cf. monoculus as well as fragments specific for Cichla sp. 'Azul'. The nuclear DNA markers indicated that reproductive isolation between C. cf. monoculus and Cichla sp. 'Azul' has broken down in the new environment, and mtDNA sequences revealed that both species can be the female donor in the interspecific crosses. The data presented herein are potentially useful for future taxonomic, genetic and evolutionary studies in the complex Cichla group, for monitoring of invasive populations, and for further development of ecological guidelines.

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Genetic divergence between Pseudoplatystoma corruscans and Pseudoplatystoma reticulatum (Siluriformes: Pimelodidae) in the Paraná River Basin

Bignotto

Prioli

et al. 2009

Braz. J. Biol.

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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 ...

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