Keyword: genomics

Matthew Sorbara

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Healthy gut microbiota can be disrupted due to antibiotic treatment, intestinal inflammation, or changes in diet. Targeted restoration of the microbiota will require an understanding of how genomic diversity between closely related microbes influences their ability to drive beneficial functions. To address this, our laboratory will use a large collection of whole-genome sequenced isolates to understand how variation between closely related gut isolates alters their ability to prevent pathogen expansion and maintain homeostatic interactions with the mucosal immune system.

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Andreas Heyland

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Dr. Heyland's laboratory uses novel functional genomics approaches to study the endocrine and neuroendocrine systems of aquatic invertebrates. Specifically he investigates the function and evolution of hormonal and neurotransmitter signaling systems in the regulation of development and metamorphosis. His research includes evolutionary development studies of marine invertebrate metamorphosis, eco-toxicogenomic approached to understand endocrine disruption in aquatic ecosystems and water remediation technologies. These projects are integrated with several national and international collaborations ranging form basic scientific work to industry partnerships.

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Cortland Griswold

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A current focus of our coalescent-based work is the development of models to support inferring historical processes that shape an ecological community, from genes to ecosystem processes. These models have applications across the domains of life, from microbial communities to grasslands. A corollary to this work is theory in support of the interpretation of metagenomic data. In the area of polyploid population genetics, our work is currently focusing on models of multilocus selection, with potential application to understanding the evolution of recombination rates and diploidization.

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Elizabeth Boulding

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The current rates of environmental change experienced by animal populations are higher than have been experienced over much of fossil record. My laboratory investigates the factors that determine whether a population will adapt to a change in the environment without going extinct. Our current projects are:
1) Invasion biology, comparing scales of local genetic adaptation to exotic predators by prey with high and low dispersal potential.
2) Genomic selection and genome wide association analysis of growth, shape, pathogen resistant and life history traits in Atlantic salmon populations.
3) Assessing heritable variation in biological control of the salmon louse by two species of cleaner fish and co-operative behaviour by their client, Atlantic salmon.

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