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This molecular mechanism allows the ear to convert sound into neural signals at incredibly high speeds.

Lack of functional otoferlin or its C2 domain interaction prevents proper vesicle docking, leading to profound deafness. Summary Table: Otoferlin C2 Interactions Function/Location C2B-C2G Main interface for membrane binding C2D Crucial Ca 2+raised to the 2 plus power binding site; mutations affect sound encoding C2F-C2G Rearrange upon membrane binding to close structure Target Membrane Membrane where vesicles are docked tm,cc,jp

Sensing: The C2D domain is identified as critical, as disruptions in this area alter synaptic sound encoding. This molecular mechanism allows the ear to convert

This guide focuses on the molecular mechanism of otoferlin-mediated vesicle docking and Ca 2+raised to the 2 plus power sensing in inner hair cells (IHCs). Role: Otoferlin acts as a key Ca 2+raised to the 2 plus power sensor for synaptic vesicle fusion in auditory IHCs. This guide focuses on the molecular mechanism of

ions are bound per domain, with specific significance for the .