Encoding properties of haltere neurons enable motion feature detection in a biological gyroscope

The halteres of dipteran insects are essential sensory organs for flight control. They are believed to detect Coriolis and other inertial forces associated with body rotation during flight. Flies use this information for rapid flight control. We show that the primary afferent neurons of the haltere&...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2010-02, Vol.107 (8), p.3840-3845
Main Authors: Fox, Jessica L, Fairhall, Adrienne L, Daniel, Thomas L
Format: Article
Language:English
Subjects:
Animals
Biological Sciences
Cells
Coriolis Force
Covariance matrices
Diptera - physiology
Eigenvalues
Eigenvectors
Electric potential
Female
Flight, Animal - physiology
Insects
Mental stimulation
Neurons
Neurons, Afferent - physiology
Precision
Sense Organs - physiology
Sensilla
Sine waves
Statistical variance
White noise
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Summary:The halteres of dipteran insects are essential sensory organs for flight control. They are believed to detect Coriolis and other inertial forces associated with body rotation during flight. Flies use this information for rapid flight control. We show that the primary afferent neurons of the haltere's mechanoreceptors respond selectively with high temporal precision to multiple stimulus features. Although we are able to identify many stimulus features contributing to the response using principal component analysis, predictive models using only two features, common across the cell population, capture most of the cells' encoding activity. However, different sensitivity to these two features permits each cell to respond to sinusoidal stimuli with a different preferred phase. This feature similarity, combined with diverse phase encoding, allows the haltere to transmit information at a high rate about numerous inertial forces, including Coriolis forces.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0912548107