A Gradient of Single-Channel Conductance in the Cochlea: Tuning the Cochlea's Strings?
Frequency tuning in the vertebrate cochlea requires a continuously varying amplifier in auditory hair cells. In this issue of Neuron, Ricci et al. show that the mechanosensitive transduction channel, a possible amplifier component, has a single-channel conductance that increases systematically along...
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Veröffentlicht in: | Neuron 2003-12, Vol.40 (5), p.875-876 |
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description | Frequency tuning in the vertebrate cochlea requires a continuously varying amplifier in auditory hair cells. In this issue of
Neuron, Ricci et al. show that the mechanosensitive transduction channel, a possible amplifier component, has a single-channel conductance that increases systematically along the frequency axis of the turtle cochlea. |
doi_str_mv | 10.1016/S0896-6273(03)00762-1 |
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subjects | Animals Calcium Channels - physiology Cochlea - physiology Ears & hearing Humans Ion Channels - physiology Medical research Signal Transduction - physiology |
title | A Gradient of Single-Channel Conductance in the Cochlea: Tuning the Cochlea's Strings? |
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