Percorrer por autor "Mendes, Natalia J."
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- Comparative eye and liver differentially expressed genes reveal monochromatic vision and cancer resistance in the shortfin mako shark (Isurus oxyrinchus)Publication . Domingues, Rodrigo R.; Mastrochirico-Filho, Vito Antonio; Mendes, Natalia J.; Hashimoto, Diogo T.; Coelho, Rui; da Cruz, Vanessa Paes; Antunes, Agostinho; Foresti, Fausto; Mendonca, Fernando F.The shortfin mako, Isurus oxyrinchus is an oceanic pelagic shark found worldwide in tropical and subtropical waters. However, the understanding of its biology at molecular level is still incipient. We sequenced the messenger RNA isolated from eye and liver tissues. De novo transcriptome yielded a total of 705,940 transcripts. A total of 3774 genes were differentially expressed (DEGs), with 1612 in the eye and 2162 in the liver. Most DEGs in the eye were related to structural and signaling functions, including nonocular and ocular opsin genes, whereas nine out of ten most overexpressed genes in the liver were related to tumor suppression, wound healing, and human diseases. Furthermore, DEGs findings provide insights on the monochromatic shark vision and a repertory of cancer-related genes, which may be insightful to elucidate shark resistance to cancer. Therefore, our results provide valuable sequence resources for future functional and population studies.
- Gene-associated markers as a genomic and transcriptomic resource for a highly migratory and apex predator shark (Isurus oxyrinchus)Publication . Domingues, Rodrigo R.; Mastrochirico-Filho, Vito Antonio; Mendes, Natalia J.; Hashimoto, Diogo T.; Coelho, Rui; Antunes, Agostinho; Foresti, Fausto; Mendonça, Fernando F.The shortfin mako, Isurus oxyrinchus, is an oceanic pelagic shark species found worldwide in tropical and subtropical waters. It is frequently caught by pelagic longline fisheries, but despite its commercial importance and ecological significance, little is still known about its biology and ecology at the molecular level. Therefore, we combined two massive parallel sequencing approaches, double digest restriction site-associated DNA sequencing (ddRAD) and RNA sequencing (RNAseq), for single nucleotide polymorphism (SNP) discovery in the shortfin mako. The ddRAD yielded a total of 82,676 putative SNPs. For RNAseq, a total of 129,663 putative SNPs were found. After the stricter filtering procedure, 405 SNPs from ddRAD and 1165 SNPs from RNAseq were retained and suitable for further analysis. Annotation analysis of SNPs from ddRAD revealed a total of 55 gene associated SNP markers, of which 32 SNPs (58.2%) are associated with diseases and defense responses, 9 SNPs (16.4%) are associated with developmental process, and 3 SNPs (5.4%) are present in genes involved in the reproductive function. For RNAseq, 739 SNPs were annotated and associated to relevant functions amongst which 10 SNPs (0.53%) were related with reproduction, 6 SNPs (0.32%) with growth, and 9 (0.48%) with locomotion. Overall, the genotyping of the SNPs was followed by the validation of 255 SNPs from ddRAD and 646 for RNAseq in 31 individuals from the Atlantic and Indian oceans. Our results provide valuable sequence resources for future population genomics analysis, comparative genomics, phylogenomics, and molecular evolution of the globally endangered shortfin mako shark.
- Microsatellite loci in the tiger shark and cross-species amplification using pyrosequencing technologyPublication . Mendes, Natalia J.; Cruz, Vanessa P.; Ashikaga, Fernando Y.; Camargo, Samia M.; Oliveira, Claudio; Piercy, Andrew N.; Burgess, George H.; Coelho, Rui; Santos, Miguel N.; Mendonca, Fernando F.; Foresti, FaustoThe tiger shark (Galeocerdo cuvier) has a global distribution in tropical and warm temperate seas, and it is caught in numerous fisheries worldwide, mainly as bycatch. It is currently assessed as near threatened by the International Union for Conservation of Nature (IUCN) Red List. In this study, we identified nine microsatellite loci through next generation sequencing (454 pyrosequencing) using 29 samples from the western Atlantic. The genetic diversity of these loci were assessed and revealed a total of 48 alleles ranging from 3 to 7 alleles per locus (average of 5.3 alleles). Cross-species amplification was successful at most loci for other species such as Carcharhinus longimanus, C. acronotus and Alopias superciliosus. Given the potential applicability of genetic markers for biological conservation, these data may contribute to the population assessment of this and other species of sharks worldwide.
- Structure and Genetic Variability of the Oceanic Whitetip Shark, Carcharhinus longimanus, Determined Using Mitochondrial DNAPublication . Camargo, Samia M.; Coelho, Rui; Chapman, Demian; Howey-Jordan, Lucy; Brooks, Edward J.; Fernando, Daniel; Mendes, Natalia J.; Hazin, Fábio H. V.; Oliveira, Claudio; Santos, Miguel N.; Foresti, Fausto; Mendonca, Fernando F.Information regarding population structure and genetic connectivity is an important contribution when establishing conservation strategies to manage threatened species. The oceanic whitetip shark, Carcharhinus longimanus, is a highly migratory, large-bodied, pelagic shark listed by the IUCN (International Union for Conservation of Nature) Red List as "vulnerable" throughout its range and "critically endangered" in the western north Atlantic. In 2014, the species was protected globally under Appendix II of CITES (Convention on International Trade in Endangered Species), limiting and regulating trade. This study used partial sequences of mitochondrial DNA (mtDNA) control region to determine the population genetic structure of oceanic whitetip sharks across the Atlantic and Indian Oceans. 724 base pairs were obtained from 215 individuals that identifed nine polymorphic sites and defined 12 distinct haplotypes. Total nucleotide diversity (pi) was 0.0013 and haplotype diversity (h) was 0.5953. The Analysis of Molecular Variance (AMOVA) evidenced moderate levels of population structure (phi(ST) = 0.1039) with restricted gene flow between the western and eastern Atlantic Ocean, and a strong relationship between the latter region and the Indian Ocean. Even though the oceanic whitetip is a highly migratory animal the results presented here show that their genetic variability is slightly below average of other pelagic sharks. Additionally, this study recommends that at least two populations in the Atlantic Ocean should be considered distinct (eastern and western Atlantic) and conservation efforts should be focused in areas with the greatest genetic diversity by environmental managers.