Summary
Giant neurons of wild typeDrosophila can be driven to spike by various mechanical inputs, but not by visual inputs. In two genetically and phenotypically different mutants visual input can drive the giant neurons. This is taken as evidence that such a connection may also exist in wild typeDrosophila, at subthreshold level.
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In at least one of the mutant stocks the giant neuron provides inputs to all contralateral dorsal longitudinal muscle fibers.
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In mutant animals, visual input elicits spike activity in the giant neuron and flight.
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Visual input to mutant giant neurons is mediated by the compound eyes, not the ocelli. Each neuron receives binocular activation.
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The giant neuron responds to the onset, but not the end, of a flash of light.
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An analysis of tarsal and wind receptor input to the giant neuron was carried out. Tarsal inputs are an important conjugate to wind input for eliciting giant neuron activity. The interaction of these inputs was further corroborated by showing that either can influence the latency and probability of the response of the giant neuron to the other.
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The giant neuron inDrosophila and the DMD neurons of the locust are compared. Results indicate that the previously described anatomical analogy between these two systems can be extended in two ways: to a physiological input (vision), and to the behavioral function of the output (jumping).
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References
Burrows, M., Rowell, C. H. F.: Connections between descending visual interneurons and metathoracic motorneurons in the locust. J. comp. Physiol.85, 221–234 (1973)
Burtt, E. T., Catton, W. T.: Transmission of visual responses in the nervous system of the locust. J. Physiol. (Lond.)146, 492–514 (1959)
Fraenkel, G.: Untersuchungen über die Koordination von Reflexen und automatisch-nervösen Rhythmen bei Insekten. Z. vergl. Physiol.16, 371–93 (1932)
Iles, J. F., Mulloney, B.: Procion Yellow staining of cockroach motor neurones without the use of microelectrodes. Brain Res.30, 397–400 (1971)
Levine, J. D.: Properties of the nervous system controlling flight inDrosophila melanogaster. J. comp. Physiol.84, 129–166 (1973)
Levine, J. D., Hughes, M.: Stereotaxic map of the muscle fibers in the indirect flight muscles inDrosophila melanogaster. J. Morph.140, 153–158 (1973)
Levine, J. D., Tracey, D.: Structure and function of the giant motorneuron ofDrosophila melanogaster. J. comp. Physiol.87, 213–235 (1973)
Maldonado, H., Levin, L., Barros Pita, J. C.: Hit distance and the predatory strike of praying mantis. Z. vergl. Physiol.56, 237–257 (1967)
Matsubara, K., Nakashima-Tanaka, E.: On the anomalous response (jumping behavior) ofDrosophila melanogaster to light. XIIIth Intl. Genetics Congress (1973)
O'Shea, M., Williams, L.: The anatomy and output connection of a locust visual interneurone; the lobular giant movement detector (LGMD) neurone. J. comp. Physiol.91, 257–266 (1974)
Power, M.E.: The thoracic-abdominal nervous system of an adult insect,Drosophila melanogaster. J. comp. Neurol.88, 347–409 (1948)
Pringle, J. W. S.: Comparative physiology of the flight motor. Advanc. Insect Physiol.5, 163–227 (1968)
Rowell, C. H. F.: The orthopteran descending movement detector (DMD) neurones: A characterization and review. Z. vergl. Physiol.73, 167–194 (1971)
Waldron, I.: Mechanisms for the production of motor output pattern in flying locusts. J. exp. Zool.47, 201–212 (1967)
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I would like to acknowledge the assistance of Ms. Emily Reid in the preparation of figures, and Brian Mulloney, Earl Mayeri, Hugh Rowell, Mick O'Shea, Corey Goodman, David Bentley, Alan Steinbach, and Rick Steinhardt, for suggestions and helpful criticisms of this manuscript.
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Levine, J.D. Giant neuron input in mutant and wild typeDrosophila . J. Comp. Physiol. 93, 265–285 (1974). https://doi.org/10.1007/BF00606797
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DOI: https://doi.org/10.1007/BF00606797