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Fly Flight Neuron Volume 32, Issue 3, Pages (November 2001)

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Presentation on theme: "Fly Flight Neuron Volume 32, Issue 3, Pages (November 2001)"— Presentation transcript:

1 Fly Flight Neuron Volume 32, Issue 3, Pages 385-388 (November 2001)
Mark A Frye, Michael H Dickinson  Neuron  Volume 32, Issue 3, Pages (November 2001) DOI: /S (01)

2 Figure 1 A Subset of Sensorimotor Pathways in the Fly Flight Control System (A) Early visual pathways project retinotopically from the photoreceptors to the medulla (brown), and from the medulla to the lobula complex (purple). The last stop for motion processing within the brain, the lobula plate houses at least three major families of motion detecting interneurons. The HS, CH, and VS cells project within the ipsilateral hemisphere (blue tones), and H1, H2, and FD cells (see text for definitions) project to the contralateral hemisphere (green tones). The terminals of some of these groups visit the sensory dendrites of interneurons projecting to the flight motor (red). (B) Descending visual interneurons drive motor neurons innervating steering muscles of the mechanosensory halteres. Haltere sensory afferents, in turn, provide electrotonic input to wing muscle motor neurons completing a visually gated feedback circuit (sensory neurons indicated in red, motor neurons indicated in yellow, steering muscles indicated in brown) Neuron  , DOI: ( /S (01) )

3 Figure 2 Experimental Paradigms for Studying the Visuomotor Control of Flight (A) In traditional analyses, an immobilized fly views a periodic grating pattern moving across a large region of the eye (left); however, when tested with motion on small regions of the eye (right), lobula plate cells exhibit directional preferences that vary across their large receptive fields. (B) A “virtual reality” flight simulator allows an intact tethered fly to control an electronic visual display with its attempts to steer (left). The temporal sequence of image motion experienced by the fly is subsequently replayed during an intracellular recording preparation (right). (C) The 3-D trajectory of freely behaving flies is tracked as they explore a visual arena (left). A reconstruction of the “fly's-eye-view” is replayed to an immobile recording preparation (right) Neuron  , DOI: ( /S (01) )

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