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Tip-Link Integrity and Mechanical Transduction in Vertebrate Hair Cells
Pejvakin, a Candidate Stereociliary Rootlet Protein, Regulates Hair Cell Function in a Cell-Autonomous Manner
Molecular Characterization of Hair Cell Metabolism and Tip Link Damage
The Other Senses
Stiffness and Tension Gradients of the Hair Cell's Tip-Link Complex In
Lipid Bilayer Mediates Ion-Channel Cooperativity in a Model of Hair-Cell Mechanotransduction
The Auditory Periphery 2 – Hair Cell Structure and Transduction
Mechanical Amplification by Hair Cells in the Semicircular Canals
Mechanisms of High Sensitivity and Active Amplification in Sensory Hair Cells a Dissertation Presented to the Faculty of The
A Pursuit I Hearing Loss Stereocilia
CHP1.PDF (39.81Kb)
Analysis of the Dynamic Behavior of the Inner Hair Cell Stereocilia by the Finite Element Method∗
The Tip-Link Antigen, a Protein Associated with the Transduction Complex of Sensory Hair Cells, Is Protocadherin-15
Regulation of PCDH15 Function in Mechanosensory Hair Cells by Alternative Splicing of the Cytoplasmic Domain Stuart W
The Physics of Hearing: Fluid Mechanics and the Active Process of the Inner Ear
Functional Characterisation of the Mechano-Electrical Transduction Complex of the Auditory Hair Cells Ménélik Labbe
Stiffness and Tension Gradients of the Hair Cell's Tip-Link
Chapter 7: Mechano-Acoustical Transformations
Top View
Localization of PDZD7 to the Stereocilia Ankle-Link Associates This Scaffolding Protein with the Usher Syndrome Protein Network
Linking Cadherin to Hearing
Hair Cell Transduction, Tuning, and Synaptic Transmission in the Mammalian Cochlea
The Composition and Role of Cross Links in Mechanoelectrical Transduction in Vertebrate Sensory Hair Cells
Cochlear Anatomy, Function and Pathology I
Vestibular Sys. Lect
Chapter 4 . Biologically Realistic Bundles
Evidence for Opening of Hair-Cell Transducer Channels After Tip-Link Loss
The Energetic Ear
The Cochlea, Transduction, and Auditory Periphery, Lecture 1.Pdf
Fast Recovery of Disrupted Tip Links Induced by Mechanical Displacement of Hair Bundles
Lipid Bilayer Mediates Ion-Channel Cooperativity in a Model of Hair-Cell
Mechanotransduction Is Required for Establishing and Maintaining Mature Inner Hair Cells and Regulating Efferent Innervation
How the Ear Hears
Three Major Areas of Ear 1. External (Outer) Ear – Hearing Only 2. Middle Ear (Tympanic Cavity) – Hearing Only 3
Adaptation in Auditory Hair Cells Robert Fettiplace and Anthony J Ricciy
Physiological Preparation of Hair Cells from the Sacculus of the American Bullfrog (Rana Catesbeiana)
Neurobiologia 8 EN
Mechanically Activated Ion Channels
The Dynamic Strength of the Hair-Cell Tip Link Reveals Mechanisms of Hearing and Deafness
Characteristics of the Membrane of the Stereocilia and Cell Apex in Cochlear Hair Cells
Integrating the Biophysical and Molecular Mechanisms of Auditory Hair Cell Mechanotransduction
High-Resolution Structure of Hair-Cell Tip Links,” the Authors Note That Figure 3 Appeared Incorrectly
Inner Ear in Balance and Equilibrium
Remodeling in the Actin Core of the Auditory Hair Cell Stereocilia As a Novel Component of Temporary Noise- Induced Hearing Loss
Stereocilia Morphogenesis and Maintenance Through Regulation of Actin Stability
Fast Recovery of Disrupted Tip Links Induced by Mechanical Displacement of Hair Bundles R
Beyond Cell–Cell Adhesion: Sensational Cadherins for Hearing and Balance
Loxhd1 Mutations Cause Mechanotransduction Defects in Cochlear Hair Cells
Fast Recovery of Disrupted Tip Links Induced by Mechanical Displacement of Hair Bundles