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Full-Text Articles in Physiology
The 133-Kda N-Terminal Domain Enables Myosin 15 To Maintain Mechanotransducing Stereocilia And Is Essential For Hearing, Qing Fang, Artur A. Indzhykulian, Mirna Mustapha, Gavin P. Riordan, David F. Dolan, Thomas B. Friedman, Inna A. Belyantseva, Gregory I. Frolenkov, Sally A. Camper, Jonathan E. Bird
The 133-Kda N-Terminal Domain Enables Myosin 15 To Maintain Mechanotransducing Stereocilia And Is Essential For Hearing, Qing Fang, Artur A. Indzhykulian, Mirna Mustapha, Gavin P. Riordan, David F. Dolan, Thomas B. Friedman, Inna A. Belyantseva, Gregory I. Frolenkov, Sally A. Camper, Jonathan E. Bird
Physiology Faculty Publications
The precise assembly of inner ear hair cell stereocilia into rows of increasing height is critical for mechanotransduction and the sense of hearing. Yet, how the lengths of actin-based stereocilia are regulated remains poorly understood. Mutations of the molecular motor myosin 15 stunt stereocilia growth and cause deafness. We found that hair cells express two isoforms of myosin 15 that differ by inclusion of an 133-kDa N-terminal domain, and that these isoforms can selectively traffic to different stereocilia rows. Using an isoform-specific knockout mouse, we show that hair cells expressing only the small isoform remarkably develop normal stereocilia bundles. However, …