Visual learning in individually assayed Drosophila larvae
Autor: | Thomas Hendel, Sabine Scherer, Bertram Gerber, Birgit Michels, Martin Heisenberg, Kirsa Neuser, Reinhard F. Stocker |
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Rok vydání: | 2003 |
Předmět: |
Taste
genetic structures Sensory Receptor Cells Physiology Photoperiod Fructose Aquatic Science Sodium Chloride Animals Reinforcement Molecular Biology Drosophila Ecology Evolution Behavior and Systematics Communication biology Quinine business.industry Appetitive learning fungi Association Learning biology.organism_classification Associative learning Drosophila melanogaster Insect Science Larva Microscopy Electron Scanning Visual Perception Animal Science and Zoology Differential conditioning Psychology business Neuroscience Visual learning Reinforcement Psychology Drosophila larvae |
Zdroj: | The Journal of experimental biology. 207(Pt 1) |
ISSN: | 0022-0949 |
Popis: | SUMMARYAn understanding of associative learning is facilitated if it can be analyzed in a simple animal like the fruit fly Drosophila. Here, we introduce the first visual associative learning paradigm for larval Drosophila; this is remarkable as larvae have an order of magnitude fewer neurons than adult flies. Larvae were subjected to either of two reciprocal training regimes: Light+/Dark- or Light-/Dark+. Subsequently, all larvae were individually tested for their preference between Light versus Dark. The difference between training regimes was therefore exclusively which visual situation was associated with which reinforcer;differences observed during the test thus reflected exclusively associative learning. For positive reinforcement (+) we used fructose (FRU), and for negative reinforcement (-) either quinine or sodium chloride (QUI, NaCl). Under these conditions, associative learning could be reproducibly observed in both wild-type strains tested. We then compared the effectiveness of training using differential conditioning, with both positive and negative reinforcement, to that using only positive or only negative reinforcement. We found that FRU only, but neither QUI nor NaCl, was in itself effective as a reinforcer. This is the first demonstration of appetitive learning in larval Drosophila. It is now possible to investigate the behavioral and neuronal organization of appetitive visual learning in this simple and genetically easy-to-manipulate experimental system. |
Databáze: | OpenAIRE |
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