Reafferent control of optomotor yaw torque inDrosophila melanogaster |
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Authors: | M Heisenberg and R Wolf |
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Institution: | (1) Institut für Genetik und Mikrobiologie, Röntgenring 11, D-8700 Würzburg, Germany |
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Abstract: | Summary In the flight simulator the optomotor response ofDrosophila melanogaster does not operate as a simple feedback loop. Reafferent and exafferent motion stimuli are processed differently. Under open-loop conditions responses to motion are weaker than under closed-loop conditions. It takes the fly less than 100 ms to distinguish reafferent from exafferent motion. In closed-loop conditions, flies constantly generate torque fluctuations leading to small-angle oscillations of the panorama. This reafferent motion stimulus facilitates the response to exafferent motion but does not itself elicit optomotor responses. Reafference control appears to be directionally selective: while a displacement of the patternm by as little as 0.1° against the expected direction leads to a fast syndirectional torque response, displacements in the expected direction have no comparable effect. Based on the behavior of the mutantrol sol, which under open-loop conditions is directionally motion-blind but in closed-loop conditions still performs optomotor balance, a model is proposed in which the fly's endogenous torque fluctuations are an essential part of the course control process. It is argued that the model may also account for wild type optomotor balance in the flight simulator. |
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