about
Review series: The cell biology of hearingStereocilin-deficient mice reveal the origin of cochlear waveform distortionsModelling cochlear mechanics.Parallel evolution of auditory genes for echolocation in bats and toothed whalesOncomodulin, an EF-Hand Ca2+ Buffer, Is Critical for Maintaining Cochlear Function in Mice.Voltage-sensitive prestin orthologue expressed in zebrafish hair cells.Two-Dimensional Cochlear Micromechanics Measured In Vivo Demonstrate Radial Tuning within the Mouse Organ of Corti.Hair cell force generation does not amplify or tune vibrations within the chicken basilar papilla.Reverse transduction measured in the living cochlea by low-coherence heterodyne interferometry.Basilar membrane and tectorial membrane stiffness in the CBA/CaJ mouseMeasurement of cochlear power gain in the sensitive gerbil ear.Recovery of otoacoustic emissions after high-level noise exposure in the American bullfrogActive cochlear amplification is dependent on supporting cell gap junctionsSomatic motility and hair bundle mechanics, are both necessary for cochlear amplification?Prestin and the cholinergic receptor of hair cells: positively-selected proteins in mammalsPrestin-based outer hair cell electromotility in knockin mice does not appear to adjust the operating point of a cilia-based amplifier.Psychophysical evidence of damaged active processing mechanisms in Belgian Waterslager Canaries.Loss of GABAB receptors in cochlear neurons: threshold elevation suggests modulation of outer hair cell function by type II afferent fibers.Medial olivocochlear efferent inhibition of basilar-membrane responses to clicks: evidence for two modes of cochlear mechanical excitation.Cochlear amplification, outer hair cells and prestin.Power efficiency of outer hair cell somatic electromotility.The actions of calcium on hair bundle mechanics in mammalian cochlear hair cells.A mechanism for active hearingProbing the Xenopus laevis inner ear transcriptome for biological function.Mechanosensory hair cells express two molecularly distinct mechanotransduction channels.Localization of the cochlear amplifier in living sensitive earsStructure and mechanics of supporting cells in the guinea pig organ of CortiMechanical amplification exhibited by quiescent saccular hair bundles.Form and function of the mammalian inner ear.Spontaneous voltage oscillations and response dynamics of a Hodgkin-Huxley type model of sensory hair cellsCoherent motion of stereocilia assures the concerted gating of hair-cell transduction channels.Hair bundles teaming up to tune the mammalian cochlea.Silencing the cochlear amplifier by immobilizing prestin.Amplifying effect of a release mechanism for fast adaptation in the hair bundleMechanotransduction by hair cells: models, molecules, and mechanisms.Oncomodulin identifies different hair cell types in the mammalian inner ear.Frequency doubling by active in vivo motility of mechanosensory neurons in the mosquito ear.The cochlea--new insights into the conversion of sound into electrical signals.Tuning in to cochlear hair cells.
P2860
Q24601353-BFD6FF2E-9B13-40CA-A946-04BE8E03E02AQ28595046-291A4CA2-34A4-45EC-83B0-EFE2207B74F6Q28654637-067A9875-7BC4-4A64-B772-59CDBD5B718DQ28727824-28C0D3BA-A7D6-4845-9223-60523FEA2B30Q29013682-6E34FAA5-16D6-45FB-9DDB-51563CFE21F7Q30359620-4637672D-84C6-424B-9882-F95268F0EC13Q30364167-3AA28BD8-AFCD-4BBD-8E34-A4D59FFA7716Q30369616-0939727D-C7D9-4D7F-91CE-D9DF7D0A342FQ30389174-CE5AB99C-8D72-4B6A-9C15-BB0A3F27C6F3Q30401941-40A22B35-7DE5-4013-9106-3B26371835B5Q30406827-868597A1-E248-4EE9-997B-287C851E5D53Q30413132-CB218F45-144E-4464-AECD-40E9E645D347Q30452999-91B1359D-5468-4636-8CA0-E9E38CA09E97Q30469969-AF03F970-F98F-4FBC-9733-18F709068A15Q30469973-288572B7-C95F-450E-8722-71D4E85D559DQ30479857-3375A16F-4EE4-44BB-9228-BB0D9264E15CQ30481081-2DB43B48-8C1B-411A-ABF2-9CD3F963D672Q30482969-259CB1BA-504A-478D-A2E3-7F1ADC8BD70DQ30485134-8F299143-240F-465C-8E06-E89054725B4DQ30487712-331BF7A0-3D96-4AC1-95F8-1416D4E24EEEQ30488083-E53E48D7-1D42-4372-A915-20D7A17200F2Q30490324-FA6B2834-DF64-40AF-9F81-11B66D0924ADQ30493818-4F39462C-FCAD-4BA6-8A99-0CC5400F5747Q30530777-CE84A162-1184-4C68-B789-8364D78B666AQ30833261-701717B7-AC2A-44E0-A8A8-79FFE7593564Q33918429-52C83E8A-6D2C-4ECB-A062-6DB88BA15253Q34474412-ECBBE63A-8A30-4923-AC9A-A69AE7FE46EEQ34863081-E3874B82-04D6-4942-8C3C-60AF266E9C55Q35614411-1FA4AD8F-2970-4E7E-A6FC-E80A173B2B09Q35692630-A8ED147D-F9BB-4DB5-BFFC-834700E4AF89Q36326705-4664AA53-519B-4724-84AE-A65F05BF593CQ36999824-FFA78501-DCAB-43AF-AEC5-01715D690F8BQ37158000-A62A7FBA-CE77-4405-99CC-5D0445FE6E16Q37297443-3BF07526-9CBD-417F-A79E-80B8FCDBB5C8Q37608717-2053B1DE-D6C0-4638-B515-F311792A2738Q42245532-66231AEB-2B68-4F20-985B-39C6B40A94D5Q48094620-47B566FC-7F66-4F90-AB65-CAB1D0878312Q50462480-3DFD3E8C-3A89-454E-88A2-324A845982EFQ50462484-A243CAB5-B8EB-4BC1-A393-A1A1B260B13C
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Active hair bundle movements in auditory hair cells.
@ast
Active hair bundle movements in auditory hair cells.
@en
type
label
Active hair bundle movements in auditory hair cells.
@ast
Active hair bundle movements in auditory hair cells.
@en
prefLabel
Active hair bundle movements in auditory hair cells.
@ast
Active hair bundle movements in auditory hair cells.
@en
P2860
P1476
Active hair bundle movements in auditory hair cells.
@en
P2093
Robert Fettiplace
P2860
P356
10.1113/JPHYSIOL.2006.115949
P407
P577
2006-08-03T00:00:00Z