Compliance of the hair bundle associated with gating of mechanoelectrical transduction channels in the bullfrog's saccular hair cell.
about
Integrating the biophysical and molecular mechanisms of auditory hair cell mechanotransductionMechanical amplification by hair cells in the semicircular canalsLocalization of inner hair cell mechanotransducer channels using high-speed calcium imaging.Making an effort to listen: mechanical amplification in the earCa2+ current-driven nonlinear amplification by the mammalian cochlea in vitro.Sensing sound: molecules that orchestrate mechanotransduction by hair cellsStructures of usher syndrome 1 proteins and their complexesConsequences of Location-Dependent Organ of Corti Micro-Mechanics.Mechanical overstimulation of hair bundles: suppression and recovery of active motilitySimulation of the response of the inner hair cell stereocilia bundle to an acoustical stimulus.Structural determinants of cadherin-23 function in hearing and deafnessCellular and Molecular Responses to Mechanical Expansion of TissueA novel stereocilia defect in sensory hair cells of the deaf mouse mutant Tasmanian devilRegulation of force and unloaded sliding speed in single thin filaments: effects of regulatory proteins and calciumA model of stereocilia adaptation based on single molecule mechanical studies of myosin IStereocilin-deficient mice reveal the origin of cochlear waveform distortionsParallel evolution of auditory genes for echolocation in bats and toothed whalesA quantitative assessment of torque-transducer models for magnetoreceptionThe structural and functional differentiation of hair cells in a lizard's basilar papilla suggests an operational principle of amniote cochleas.Otoprotective effects of ethosuximide in NOD/LtJ mice with age-related hearing lossHair cell force generation does not amplify or tune vibrations within the chicken basilar papilla.Cochlear hair cells: The sound-sensing machines.A temperature rise reduces trial-to-trial variability of locust auditory neuron responses.Voltage-Mediated Control of Spontaneous Bundle Oscillations in Saccular Hair CellsPower dissipation in the subtectorial space of the mammalian cochlea is modulated by inner hair cell stereociliaHearing in Drosophila.The physiology of mechanoelectrical transduction channels in hearing.Quantitative cell biology: the essential role of theoryMolecular force transduction by ion channels: diversity and unifying principles.A prestin motor in chicken auditory hair cells: active force generation in a nonmammalian speciesTransduction channels' gating can control friction on vibrating hair-cell bundles in the earFast adaptation in vestibular hair cells requires myosin-1c activity.Cell-intrinsic mechanisms of temperature compensation in a grasshopper sensory receptor neuron.Sensory transduction and adaptation in inner and outer hair cells of the mouse auditory system.A molecular level prototype for mechanoelectrical transducer in mammalian hair cells.Response to a pure tone in a nonlinear mechanical-electrical-acoustical model of the cochlea.Sound-induced length changes in outer hair cell stereocilia.Mechanics of the mammalian cochlea.Two-tone distortion on the basilar membrane of the chinchilla cochlea.Distortion in those good vibrations.
P2860
Q22337239-FDA8B161-BC45-4D59-8A22-418ADEFA23BDQ24623868-8E1A35A2-31AE-498C-90A8-BB07A406C33FQ24647513-5D414103-4561-4A07-A6C2-E298573E694EQ24654219-A4A3BAC3-E79D-41C0-BAA9-6504632CB1B7Q24684744-BC7EA57C-1030-479C-8E31-9C6BBDBB3857Q26866077-95377345-CC9A-4630-9801-705F2BCC2ED6Q27023615-9311BD5D-4DF5-45E0-B574-B7104BD60353Q27302305-1D15393F-3DEA-4604-BD0E-EDA123BDBFFFQ27335555-BA873AF5-EB61-4186-B1D8-A6D052A19E5AQ27349292-14E13C37-0B17-43E7-906E-95A0723A0623Q27660584-0B8F4CCC-51DE-4F4D-8878-19F3EA819DF7Q28066405-9E5E124B-90B3-41C9-9AD3-15C1AE0C83C5Q28509301-D70206E4-6E20-4275-936E-E790E6DE9E17Q28578662-D9CA7DFB-28AE-4CED-A643-B8904A4424F4Q28580052-B55D34B8-DB86-4F35-BBDB-EA0A78187974Q28595046-2DD29D67-24A0-4422-8166-C3AF6CFB2122Q28727824-C9CC1E9E-9985-403B-8EDA-921D2F04CF1FQ28748348-89529F50-2328-4EBE-A7E2-AB7E04E2ACA9Q28756128-CD050354-3E7D-405F-B4C7-06FD1FC3C927Q30354158-EF9DF464-B2DE-40AA-8676-D7CA42A638F7Q30369616-824C4812-F74C-487D-A9A2-0818D1E2CE6AQ30370018-46A78F04-5070-4E47-9955-1BDD0B86C8F8Q30375359-D3733852-2C9A-4846-B1F4-601175443A33Q30385052-EEA5B83F-20DB-4D32-AF0C-A1454930FBB5Q30391789-44E8E7F9-8998-4834-8672-FCFA252F1165Q30400378-6ED438EF-3FFF-4FA8-8E78-B18FAC4BFD33Q30408022-69CB48BF-5F10-44A5-A0E7-0CEF9AE1D130Q30408545-370CB204-3FBE-42F5-95F0-50BDE4D2A9B5Q30419201-E68A5A0E-4200-459A-B8D9-720CB44A5A2FQ30435085-D97F8251-30D4-41F0-9318-01177B29485AQ30437116-B91A12E9-1F16-4FEC-BDF3-D13E96AEDED4Q30437793-90518498-7B17-4DDE-9A60-75AB61B5D642Q30438100-8CCEE8B9-99FE-49B8-8D20-18B5BDBAE908Q30440194-E282BD17-6DCB-4E78-A863-6FD9BB37B7C0Q30448704-CBC85350-8FDC-4BCD-AC99-067FAB7FB5C3Q30456138-D25C7C6E-54BB-4710-8663-A47B49A80E0BQ30457474-2C8B732A-2BE1-4981-A3AB-F0BBF581D5F7Q30457554-8A5D6D8F-BC38-4E08-81DF-863E8312872DQ30457916-605523F8-DD46-4947-9951-3A2907C1C076Q30458055-A46B35DB-5E85-4A7C-8D3A-70A37C1EBE11
P2860
Compliance of the hair bundle associated with gating of mechanoelectrical transduction channels in the bullfrog's saccular hair cell.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年学术文章
@wuu
1988年学术文章
@zh
1988年学术文章
@zh-cn
1988年学术文章
@zh-hans
1988年学术文章
@zh-my
1988年学术文章
@zh-sg
1988年學術文章
@yue
1988年學術文章
@zh-hant
name
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@en
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@nl
type
label
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@en
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@nl
prefLabel
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@en
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@nl
P1433
P1476
Compliance of the hair bundle ...... bullfrog's saccular hair cell.
@en
P2093
Hudspeth AJ
P304
P356
10.1016/0896-6273(88)90139-0
P407
P577
1988-05-01T00:00:00Z