Gut Microbiota and Energy Homeostasis in Fish
Memorial University of Newfoundland
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Abstract
The microorganisms within the intestinal tract (termed gut microbiota) have been shown to interact with the gut-brain axis, a bidirectional communication system between the gut and the brain mediated by hormonal, immune, and neural signals. Through these interactions, the microbiota might affect behaviors, including feeding behavior, digestive/absorptive processes (e.g., by modulating intestinal motility and the intestinal barrier), metabolism, as well as the immune response, with repercussions on the energy homeostasis and health of the host. To date, research in this field has mostly focused on mammals. Studies on non-mammalian models such as fish may provide novel insights into the specific mechanisms…
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Authors
2Topics & keywords
Topics
Keywords
- Gut–brain axis
- Gut flora
- Biology
- Immune system
- Energy homeostasis
- Homeostasis
- Hormone
- Fish <Actinopterygii>
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