2017
Hypothesis of K+-Recycling Defect Is Not a Primary Deafness Mechanism for Cx26 (GJB2) Deficiency
Zhao H. Hypothesis of K+-Recycling Defect Is Not a Primary Deafness Mechanism for Cx26 (GJB2) Deficiency. Frontiers In Molecular Neuroscience 2017, 10: 162. PMID: 28603488, PMCID: PMC5445178, DOI: 10.3389/fnmol.2017.00162.Peer-Reviewed Original ResearchHearing lossDeafness mechanismCx26 deficiencyInner ear gap junctionsHair cell degenerationNonsyndromic hearing lossDisruption of permeabilityCongenital deafnessCell degenerationHair cellsHair cell excitationHereditary deafnessCell excitationConnexin26 MutationsGap junctional channelsGap junctionsDevelopmental disordersDeficiencyDeafnessExtracellular spaceReview articleJunctional channelsDegeneration
2015
Connexin26 gap junction mediates miRNA intercellular genetic communication in the cochlea and is required for inner ear development
Zhu Y, Zong L, Mei L, Zhao H. Connexin26 gap junction mediates miRNA intercellular genetic communication in the cochlea and is required for inner ear development. Scientific Reports 2015, 5: 15647. PMID: 26490746, PMCID: PMC4614881, DOI: 10.1038/srep15647.Peer-Reviewed Original ResearchConceptsGenetic communicationOrgan developmentInner ear gap junctionsIntercellular communicationGap junctionsCochlear developmentInner ear developmentNon-coding RNAsCx26 knockout miceEar developmentGene expressionIntercellular transferCx26 deficiencyMiR-96 expressionCx30 deficiencyDevelopmental disordersPredominant isoformCell proliferationDeletionCx26Critical roleKnockout miceExpressionMiRNAsMicroRNAs
2000
Voltage Gating of Gap Junctions in Cochlear Supporting Cells: Evidence for Nonhomotypic Channels
Zhao H, Santos-Sacchi J. Voltage Gating of Gap Junctions in Cochlear Supporting Cells: Evidence for Nonhomotypic Channels. The Journal Of Membrane Biology 2000, 175: 17-24. PMID: 10811964, DOI: 10.1007/s002320001051.Peer-Reviewed Original Research
1998
Effect of Membrane Tension on Gap Junctional Conductance of Supporting Cells in Corti's Organ
Zhao H, Santos-Sacchi J. Effect of Membrane Tension on Gap Junctional Conductance of Supporting Cells in Corti's Organ. The Journal Of General Physiology 1998, 112: 447-455. PMID: 9758863, PMCID: PMC2229429, DOI: 10.1085/jgp.112.4.447.Peer-Reviewed Original ResearchConceptsTurgor pressureInner ear gap junctionsMembrane tensionPositive turgor pressureProtein kinase inhibitorsGap junctionsOsmotic pressure regulationPipette pressureSupporting cellsInner earMicroM HCochlear homeostasisGap junctional conductanceKinase inhibitorsMechanical forcesCell sizeJunctional conductance