Integrating the biophysical and molecular mechanisms of auditory hair cell mechanotransduction
Anthony W Peng, Felipe T Salles, Bifeng Pan, Anthony J Ricci, Anthony W Peng, Felipe T Salles, Bifeng Pan, Anthony J Ricci
Abstract
Mechanosensation is a primitive and somewhat ubiquitous sense. At the inner ear, sensory hair cells are refined to enhance sensitivity, dynamic range and frequency selectivity. Thirty years ago, mechanisms of mechanotransduction and adaptation were well accounted for by simple mechanical models that incorporated physiological and morphological properties of hair cells. Molecular and genetic tools, coupled with new optical techniques, are now identifying and localizing specific components of the mechanotransduction machinery. These new findings challenge long-standing theories, and require modification of old and development of new models. Future advances require the integration of molecular and physiological data to causally test these new hypotheses.
Conflict of interest statement
Competing financial interests: The authors declare no competing financial interests.
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Source: PubMed