Transgenic fish systems and their application in ecotoxicology
Autor: | Jon M. Green, Charles R. Tyler, Okhyun Lee |
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Rok vydání: | 2014 |
Předmět: |
Embryo
Nonmammalian Transgene Green Fluorescent Proteins Computational biology Biology Toxicology Ecotoxicology Animals Genetically Modified Aquaculture Genes Reporter Animals Transgenes Zebrafish Gene business.industry Zebrafish Proteins Aryl hydrocarbon receptor biology.organism_classification Biotechnology DNA-Binding Proteins Environmental toxicology Meganuclease biology.protein Environmental Pollutants business Transcription Factors |
Zdroj: | Critical reviews in toxicology. 45(2) |
ISSN: | 1547-6898 |
Popis: | The use of transgenics in fish is a relatively recent development for advancing understanding of genetic mechanisms and developmental processes, improving aquaculture, and for pharmaceutical discovery. Transgenic fish have also been applied in ecotoxicology where they have the potential to provide more advanced and integrated systems for assessing health impacts of chemicals. The zebrafish (Daniorerio) is the most popular fish for transgenic models, for reasons including their high fecundity, transparency of their embryos, rapid organogenesis and availability of extensive genetic resources. The most commonly used technique for producing transgenic zebrafish is via microinjection of transgenes into fertilized eggs. Transposon and meganuclease have become the most reliable methods for insertion of the genetic construct in the production of stable transgenic fish lines. The GAL4-UAS system, where GAL4 is placed under the control of a desired promoter and UAS is fused with a fluorescent marker, has greatly enhanced model development for studies in ecotoxicology. Transgenic fish have been developed to study for the effects of heavy metal toxicity (via heat-shock protein genes), oxidative stress (via an electrophile-responsive element), for various organic chemicals acting through the aryl hydrocarbon receptor, thyroid and glucocorticoid response pathways, and estrogenicity. These models vary in their sensitivity with only very few able to detect responses for environmentally relevant exposures. Nevertheless, the potential of these systems for analyses of chemical effects in real time and across multiple targets in intact organisms is considerable. Here we illustrate the techniques used for generating transgenic zebrafish and assess progress in the development and application of transgenic fish (principally zebrafish) for studies in environmental toxicology. We further provide a viewpoint on future development opportunities. |
Databáze: | OpenAIRE |
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