Project description:Genome of Risso's dolphin (Grampus griseus)

Project description:3 technical replicates from Wild Dolphin PBL Keywords: Immune and stress response analysis

Project description:de novo assembly of the Indo-Pacific humpback dolphin leucocyte transcriptome for functional genomic analysis

Project description:3 technical replicates from Wild Dolphin PBL Keywords: Immune and stress response analysis Analyzed 3 arrays with a 3 replicate series.

Project description:Wild dolphin PBL analysis

Project description:Actinomycete for comparative analysis

Project description:To assess the impact of emerging contaminats on dolphin transcriptome

Project description:Transcriptomics analysis of fats of toothed whales

Project description:Targeted approaches have been widely used to help explain physiological adaptations, but few studies have used non-targeted omics approaches to explore differences between diving marine mammals and terrestrial mammals. A rank comparison of undepleted serum proteins from common bottlenose dolphins (Tursiops truncatus) and pooled normal human serum led to the discovery of 11 proteins that appeared exclusive to dolphin serum. For dolphin proteins that did not match human serum proteins, a second comparison was made with Yorkshire pig (Sus scrofa)serum proteins to determine whether phylogenetic differences in serum proteins could simply explain the differences between dolphin and human. Three out of 11 proteins that were considered unique to the dolphin high abundance serum proteome were ranked within the high abundance pig serum proteome. Compared to the comprehensive human plasma proteome, 5 of 11 serum proteins had a differential rank greater than 200. Major differences exist in the circulating blood proteome of the bottlenose dolphin compared to terrestrial mammals and exploration of these differences in bottlenose dolphins and other marine mammals may identify veiled protective strategies to counter physiological stress.

Project description:Archived blood samples collected during common bottlenose dolphin health assessments in the northern Gulf of Mexico from 2013 to 2018 were analyzed by RNA-seq to support and enhance the assessment of animal health. The transcriptomic data were analyzed in conjunction with the substantial pool of health and environmental data collected during health assessments to investigate the utility of transcriptomic data in overall assessment of dolphin health and/or as markers of specific health concerns.