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Journal home Advance online publication Current issue Archive Press releases Supplements Focuses Guide to authors Online submission Permissions For referees Free online issue Contact the journal Subscribe Advertising work@npg naturereprints About this site For librarians   NPG Resources Nature Nature Reviews Neuroscience Nature Cell Biology Nature Medicine Neuroscience Gateway UCSD-Nature Signaling Gateway NPG Subject areas Biotechnology Cancer Chemistry Clinical Medicine Dentistry Development Drug Discovery Earth Sciences Evolution & Ecology Genetics Immunology Materials Science Medical Research Microbiology Molecular Cell Biology Neuroscience Pharmacology Physics Browse all publications Article Nature Neuroscience  8, 1028 - 1034 (2005) Published online: 24 July 2005; | doi:10.1038/nn1509 Motility-associated hair-bundle motion in mammalian outer hair cells Shuping Jia & David Z Z He Hair Cell Biophysics Laboratory, Department of Biomedical Sciences, Creighton University School of Medicine, 2500 California Plaza, Omaha, Nebraska 68175, USA. Correspondence should be addressed to David Z Z He hed@creighton.edu Mammalian hearing owes its remarkable sensitivity and frequency selectivity to a local mechanical feedback process within the cochlea. Cochlear outer hair cells (OHCs) function as the key elements in the feedback loop in which the fast somatic motility of OHCs is thought to be the source of cochlear amplification. An alternative view is that amplification arises from active hair-bundle movement, similar to that seen in nonmammalian hair cells. We measured voltage-evoked hair-bundle motions in the gerbil cochlea to determine if such movements were also present in mammalian OHCs. The OHCs showed bundle movement with peak responses of up to 830 nm. The movement was insensitive to manipulations that would normally block mechanotransduction in the stereocilia, and it was absent in neonatal OHCs and prestin-knockout OHCs. These findings suggest that the bundle movement originated in somatic motility and that somatic motility has a central role in cochlear amplification in mammals. MORE ARTICLES LIKE THIS These links to content published by NPG are automatically generated. NEWS AND VIEWS The cochlear amplifier and Ca 2+ current?driven active stereocilia motion Nature Neuroscience News and Views (01 Feb 2005) Fast adaptation in the mammalian cochlea: a conserved mechanism for cochlear amplification Nature Neuroscience News and Views (01 Aug 2003) See all 10 matches for News And Views RESEARCH Outer hair cell somatic, not hair bundle, motility is the basis of the cochlear amplifier Nature Neuroscience Brief Communication (01 Jul 2008) Force generation by mammalian hair bundles supports a role in cochlear amplification Nature Letters to Editor (24 Feb 2005) See all 62 matches for Research  Top Abstract Previous | Next Table of contents Full text Download PDF Send to a friend Save this link Open Innovation Challenges Single-cell Analysis Platform Deadline: Dec 02 2009 Reward: $5,000 USD This Challenge is looking for novel approaches to analyzing changes at a single-cell level. This is... Direct Molecular Detection of Proteins and Nucleic Acids Deadline: Dec 02 2009 Reward: $5,000 USD This Challenge is looking for novel approaches to protein and nucleic acid detection. This is an Id... More Challenges Powered by: nature jobs Group Leader Positions IMP Vienna Austria PhD Programs Georg-August-Universitat Gottingen Göttingen, Germany More science jobs Post a job for free Figures & Tables Supplementary info Export citation Search buyers guide:

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