File:Sequential Processing in the Auditory Transduction Chain.gif

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Summary

Description
English: A sequence of several steps transforms an incident sound wave into a neural spike response.

(1) Mechanical coupling. The acoustic stimulus induces vibrations of a mechanical membrane (basilar or tympanic membrane).

(2) Mechanosensory transduction. The deflections cause the opening of mechanosensory ion channels in the membrane of a receptor neuron. Many details of this transduction process are still unknown. The depicted schematic coupling follows the gating-spring model proposed for mechanosensory transduction in hair cells [43].

(3) Electrical integration. The electrical charge due to the transmembrane current accumulates at the cell membrane.

(4) Spike generation. Action potentials are triggered by voltage-dependent currents.

Each of these four steps transforms the signal in a specific way, which may be nearly linear (as for the eardrum response) or strongly nonlinear (as for spike generation, which is subject to thresholding and saturation). In general, the illustrated steps may contain further sub-processes such as cochlear amplification or synaptic transmission between hair cells and auditory nerve fibers. For the auditory periphery of locusts investigated in the present study, this schematic picture resembles anatomical findings [18], which reveal that the receptor neurons are directly attached to the eardrum and that they send their action potentials down the auditory nerve without any further relay stations.
Date
Source Gollisch T, Herz AMV (2005) Disentangling Sub-Millisecond Processes within an Auditory Transduction Chain. PLoS Biol 3(1): e8. doi:10.1371/journal.pbio.0030008 (Fig. 1)
Author Tim Gollisch, Andreas M. V. Herz
Other versions Derivative works of this file:  Sequential Processing in the Auditory Transduction Chain.svg

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4 January 2005

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current01:05, 13 February 2009Thumbnail for version as of 01:05, 13 February 20095,600 × 2,291 (97 KB)Mike.lifeguard{{Information |Description={{en|1=A sequence of several steps transforms an incident sound wave into a neural spike response. (1) Mechanical coupling. The acoustic stimulus induces vibrations of a mechanical membrane (basilar or tympanic membrane). (2)

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