Russell, Ian and Lukashkina, Victoria and Levic, Snezana and Young-Wook, C and Lukashkin, Andrei and Ng, L and Forrest, D (2021) Emilin 2 promotes the mechanical gradient of the cochlear basilar membrane and resolution of frequencies in sound. [Data Collection]
Abstract
The detection of different frequencies in sound is accomplished with remarkable precision by the basilar membrane (BM), an elastic, ribbon-like structure with graded stiffness along the cochlear spiral. Sound stimulates a wave of displacement along the BM with maximal magnitude at precise, frequency-specific locations to excite neural signals that carry frequency information to the brain. Perceptual frequency discrimination requires fine resolution of this frequency map, but little is known of the intrinsic molecular features that demarcate the place of response on the BM. To investigate the role of BM microarchitecture in frequency discrimination, we deleted extracellular matrix protein emilin 2, which disturbed the filamentous organization in the BM. Emilin2−/− mice displayed broadened mechanical and neural frequency tuning with multiple response peaks that are shifted to lower frequencies than normal. Thus, emilin 2 confers a stiffness gradient on the BM that is critical for accurate frequency resolution.
Uncontrolled Keywords: | Mouse cochlea, basilar membrane, emeilin 2, basilar membrane structure, basilar membrane mechanics, frequency tuning | ||||
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Subjects: | B Subjects allied to medicine > B140 Neuroscience | ||||
Divisions: | School of Applied Sciences | ||||
Depositing User: | Ian Russell | ||||
Date Deposited: | 01 Mar 2021 09:33 | ||||
Last Modified: | 23 Jun 2021 11:39 | ||||
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