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Linear and Nonlinear Encoding Properties of an Identified Mechanoreceptor on the Fly wing Measured with Mechanical Noise Stimuli

Dickinson, Michael H. (1990) Linear and Nonlinear Encoding Properties of an Identified Mechanoreceptor on the Fly wing Measured with Mechanical Noise Stimuli. Journal of Experimental Biology, 151 . pp. 219-244. ISSN 0022-0949.

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The wing blades of most flies contain a small set of distal campaniform sensilla, mechanoreceptors that respond to deformations of the cuticle. This paper describes a method of analysis based upon mechanical noise stimuli which is used to quantify the encoding properties of one of these sensilla (the d-HCV cell) on the wing of the blowfly Calliphora vomitoria (L.). The neurone is modelled as two components, a linear filter that accounts for the frequency response and phase characteristics of the cell, followed by a static nonlinearity that limits the spike discharge to a narrow portion of the stimulus cycle. The model is successful in predicting the response of campaniform neurones to arbitrary stimuli, and provides a convenient method for quantifying the encoding properties of the sensilla. The d-HCV neurone is only broadly frequency tuned, but its maximal response near 150 Hz corresponds to the wingbeat frequency of Calliphora. In the range of frequencies likely to be encountered during flight, the d-HCV neurone fires a single phase-locked action potential for each stimulus cycle. The phase lag of the cell decreases linearly with increasing frequency such that the absolute delay between stimulus and response remains nearly constant. Thus, during flight the neurone is capable of firing one precisely timed action potential during each wingbeat, and might be used to modulate motor activity that requires afferent input on a cycle-by-cycle basis.

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Dickinson, Michael H.0000-0002-8587-9936
Additional Information:© 1990 Company of Biologists. Accepted 16 February 1990. I wish to thank John Palka, Tom Daniel and Bob Pinter for their many helpful comments and suggestions with the manuscript. This work was supported by an NSF Graduate Fellowship and NSF grant BNS-8507460 to John Palka.
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NSF Graduate FellowshipUNSPECIFIED
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Official Citation:MICHAEL H. DICKINSON Linear and Nonlinear Encoding Propertffis of an Identified Mechanoreceptor on the Fly Wing Measured with Mechanical Noise Stimuli J Exp Biol 1990 151:219-244.
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:31358
Deposited By: Ruth Sustaita
Deposited On:09 May 2012 16:54
Last Modified:03 Oct 2019 03:51

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