TMIE Defines Pore and Gating Properties of the Mechanotransduction Channel of Mammalian Cochlear Hair Cells

Keyphrases

• Gating Properties 100%
• TMC1 100%
• Cochlear Hair Cells 100%
• Mechanotransduction Channel 100%
• Pore Properties 100%
• Phospholipids 40%
• Phospholipid Binding 20%
• Mechanical Force 20%
• Charged Amino Acids 20%
• Point mutation 20%
• Hair Cell 20%
• Channel Function 20%
• Mechanotransduction 20%
• C-terminus 20%
• Ion Selectivity 20%
• Phosphatidylinositol 4,5-bisphosphate (PIP2) 20%
• Deafness 20%
• TREK-1 Channel 20%
• Sensing Domain 20%
• Gated Ion Channels 20%
• PIP2 Depletion 20%
• Unitary Conductance 20%

Neuroscience

• Cochlea 100%
• Mechanotransduction 100%
• Phospholipid 50%
• C-Terminus 33%
• Ion Channel 16%
• Amino Acid 16%
• Point Mutation 16%
• Amino Terminal Sequence 16%