2023
Megahertz Sampling of Prestin (SLC26a5) Voltage-Sensor Charge Movements in Outer Hair Cell Membranes Reveals Ultrasonic Activity that May Support Electromotility and Cochlear Amplification
Santos-Sacchi J, Bai J, Navaratnam D. Megahertz Sampling of Prestin (SLC26a5) Voltage-Sensor Charge Movements in Outer Hair Cell Membranes Reveals Ultrasonic Activity that May Support Electromotility and Cochlear Amplification. Journal Of Neuroscience 2023, 43: 2460-2468. PMID: 36868859, PMCID: PMC10082455, DOI: 10.1523/jneurosci.2033-22.2023.Peer-Reviewed Original ResearchConceptsConformational switchingMammalian hearingMembrane motor proteinCochlear amplificationMotor protein prestinVoltage-sensor charge movementOuter hair cell electromotilityHair cell electromotilityProtein prestinMotor proteinsConformation switchingCharge movementPrestinPrestin activityCell membraneOHC electromotilityHair cell membraneElectromotilityTransmembrane voltageOrgan of CortiAmplificationMammalsMembrane capacitanceProtein
2013
Real Time Measures of Prestin Charge and Fluorescence during Plasma Membrane Trafficking Reveal Sub-Tetrameric Activity
Bian S, Navaratnam D, Santos-Sacchi J. Real Time Measures of Prestin Charge and Fluorescence during Plasma Membrane Trafficking Reveal Sub-Tetrameric Activity. PLOS ONE 2013, 8: e66078. PMID: 23762468, PMCID: PMC3677934, DOI: 10.1371/journal.pone.0066078.Peer-Reviewed Original ResearchConceptsObligate tetramerPlasma membraneMembrane motor proteinIntegral membrane proteinsTetracycline-inducible cell lineMembrane proteinsMotor proteinsPrestin densityTemperature blockPrestinFluorescence measuresMembrane fluorescenceCell linesNonlinear capacitanceCochlear amplificationProteinTetramerMembraneFluorescencePrevious observationsVoltage clampFluorescence methodCellsAmplification
2003
New tunes from Corti’s organ: the outer hair cell boogie rules
Santos-Sacchi J. New tunes from Corti’s organ: the outer hair cell boogie rules. Current Opinion In Neurobiology 2003, 13: 459-468. PMID: 12965294, DOI: 10.1016/s0959-4388(03)00100-4.Peer-Reviewed Original ResearchConceptsSpecial cell typesHair cellsOuter hair cell electromotilityHair cell electromotilityMolecular identificationCell typesMammalsMechanism of actionOuter hair cellsAdditional mechanismVertebratesCellsAmplificationMechanismKnockoutElectromotilityOrgansSuch amplificationCorti's organAcoustic stimuliRemarkable progressCl− flux through a non‐selective, stretch‐sensitive conductance influences the outer hair cell motor of the guinea‐pig
Rybalchenko V, Santos‐Sacchi J. Cl− flux through a non‐selective, stretch‐sensitive conductance influences the outer hair cell motor of the guinea‐pig. The Journal Of Physiology 2003, 547: 873-891. PMID: 12562920, PMCID: PMC2342734, DOI: 10.1111/j.1469-7793.2003.00873.x.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCarbenoxoloneCell MembraneChloride ChannelsChloridesCyclooxygenase InhibitorsElectric CapacitanceElectric ConductivityGadoliniumGuinea PigsHair Cells, Auditory, OuterIon Channel GatingMechanotransduction, CellularMembrane PotentialsMercuric ChlorideMicrodialysisNiflumic AcidOctanolsProteinsSulfonic AcidsConceptsOuter hair cell motorLateral membranesVoltage-dependent conformational changesLateral plasma membranePlasma membraneMotor proteinsCell motorProtein transitionsConformational changesRecent identificationPrestinSomatic motilityAllosteric modulationCL sensitivityAnion fluxHair cellsCochlear amplificationAcoustic ratesOuter hair cellsAlternative mechanismComplicated roleMembranePronounced shiftCellsAmplification