Cochlear transduction: from models to molecules and back again

Audiology & Neuro-otology
J F AshmoreSarah Richmond

Abstract

The strides made over the last few years towards understanding many details of cochlear function still leave a number of issues unresolved. Integrating the information from molecular, genetic and, increasingly, genomic sources requires models that provide close matching between data and theory. For both theoretical and experimental reasons, the difficult area in cochlear physiology has been to understand how sensory transduction operates at the basal end of the mammalian cochlea. The identification of candidate motor proteins in outer hair cells (OHCs) draws attention to the question of whether we understand cochlear tuning. Nevertheless, the association of the cloned motor protein 'prestin' with an anion transporter superfamily provides clues about the molecular nature of the OHC motor in the basolateral membrane, the utilisation of chloride in hair cells and the long-term stability of small basal turn cochlear hair cells.

Citations

Mar 23, 2005·Computers in Biology and Medicine·Antanas StasiunasKerstin Malmqvist
Jun 6, 2003·Brain Research Bulletin·Yehoash Raphael, Richard A Altschuler
Jul 2, 2003·Medical Engineering & Physics·Antanas StasiunasKerstin Malmqvist
Oct 24, 2002·Neuroreport·Leif E JärlebarkPeter R Thorne
May 6, 2021·Cell Reports·Xiao-Dong ZhangNipavan Chiamvimonvat

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