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Drosophila melanogaster as a physiologically relevant invertebrate teaching model system of complex neurological disease

James L. Rouse Orcid Logo, Laura F. Corns Orcid Logo, Aidan Seeley Orcid Logo, Nicholas S. Freestone Orcid Logo

Advances in Physiology Education, Volume: 49, Issue: 4, Pages: 1142 - 1148

Swansea University Author: Aidan Seeley Orcid Logo

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DOI (Published version): 10.1152/advan.00085.2025

Abstract

In response to financial, logistical, and ethical pressures, universities are exploring innovative methods for teaching physiology practicals with animal models. This study presents a laboratory activity employing Drosophila melanogaster as a model for neurological disease, leveraging its historical...

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Published in: Advances in Physiology Education
ISSN: 1043-4046 1522-1229
Published: American Physiological Society 2025
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URI: https://cronfa.swan.ac.uk/Record/cronfa70725
Abstract: In response to financial, logistical, and ethical pressures, universities are exploring innovative methods for teaching physiology practicals with animal models. This study presents a laboratory activity employing Drosophila melanogaster as a model for neurological disease, leveraging its historical utility in genetic and physiological research. As invertebrates, D. melanogaster are not subject to the Animal (Scientific Procedures) Act 1986 in the United Kingdom, making them suitable for large-class teaching. The activity aims to enhance students’ molecular skills and understanding of genotype-phenotype linkages through hands-on experiments. Students conduct DNA extraction, PCR, and restriction digestion, followed by behavioral assays to assess motor function. Results demonstrate consistent molecular outcomes and significant differences in climbing ability between wild-type and mutant flies, mirroring multiple human neurological disease symptoms. The practical encourages inquiry-based learning, allowing students to design multistage experiments and analyze complex data. This comprehensive approach not only reinforces theoretical knowledge but also provides valuable insights into human disease mechanisms with invertebrate models. The methodology can be adapted for various educational levels and expanded to include more advanced techniques such as qPCR, fostering a deeper understanding of molecular biology and neurophysiology.
Keywords: Drosophila melanogaster; partial replacement; 3Rs; undergraduate experiments
College: Faculty of Medicine, Health and Life Sciences
Issue: 4
Start Page: 1142
End Page: 1148

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