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Literature DB >> 21045125

Central gating of fly optomotor response.

Juergen Haag¹, Adrian Wertz, Alexander Borst.

Abstract

We study the integration of multisensory and central input at the level of an identified fly motoneuron, the ventral cervical nerve motoneuron (VCNM) cell, which controls head movements of the animal. We show that this neuron receives input from a central neuron signaling flight activity, from two identified wide-field motion-sensitive neurons, from the wind-sensitive Johnston organ on the antennae, and from the campaniform sensillae of the halteres. We find that visual motion alone leads to only subthreshold responses. Only when it is combined with flight activity or wind stimuli does the VCNM respond to visual motion by modulating its spike activity in a directionally selective way. This nonlinear enhancement of visual responsiveness in the VCNM by central activity is reflected at the behavioral level, when compensatory head movements are measured in response to visual motion. While head movements of flies have only a small amplitude when flies are at rest, the response amplitude is increased by a factor of 30-40 during flight.

Mesh：

Substances：
neurobiotin
Biotin

Year: 2010 PMID： 21045125 PMCID： PMC2993391 DOI： 10.1073/pnas.1009381107

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

39 in total

Central gating of fly optomotor response.

1. Recurrent network interactions underlying flow-field selectivity of visual interneurons.

2. Neural mechanism underlying complex receptive field properties of motion-sensitive interneurons.

Review 3. Attentional modulation of visual processing.

4. State-dependent sensory gating in olfactory cortex.

5. Stabilizing gaze in flying blowflies.

6. Effects of sleep and arousal on the processing of visual information in the cat.

7. Modulation of visual responses by behavioral state in mouse visual cortex.

8. Resistance reflex that maintains upright head posture in the flesh fly neobellieria bullata (Sarcophagidae)

9. Shared visual attention and memory systems in the Drosophila brain.

10. Intracellular dynamics of hippocampal place cells during virtual navigation.

1. Integration of binocular optic flow in cervical neck motor neurons of the fly.

2. Complementary motion tuning in frontal nerve motor neurons of the blowfly.

3. Representation of Haltere Oscillations and Integration with Visual Inputs in the Fly Central Complex.

4. A faithful internal representation of walking movements in the Drosophila visual system.

5. Cellular mechanisms for integral feedback in visually guided behavior.

Review 6. Contextual modulation of behavioral choice.

7. Flight activity alters velocity tuning of fly motion-sensitive neurons.

Review 8. Intracellular recording in behaving animals.

9. Microsaccadic sampling of moving image information provides Drosophila hyperacute vision.

10. An olfactory circuit increases the fidelity of visual behavior.