2021
Modulation of Neuronal Potassium Channels During Auditory Processing
Wu J, Kaczmarek LK. Modulation of Neuronal Potassium Channels During Auditory Processing. Frontiers In Neuroscience 2021, 15: 596478. PMID: 33613177, PMCID: PMC7887315, DOI: 10.3389/fnins.2021.596478.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsPotassium channelsAuditory brainstem neuronsAuditory brainstem nucleiNeuronal potassium channelsAuditory informationBrainstem neuronsBrainstem nucleiCertain neuronsPotassium currentFiring patternsNeuronsGene mutationsAuditory processingAuditory stimuliHigh rateLong-term modulationComplex auditory informationIntrinsic electrical propertiesSuch modulationHuman gene mutationsIntensity of soundAuditory environmentModulation
2015
Intrinsic Neuronal Properties, Neural Networks, and Behavior
Levitan I, Kaczmarek L. Intrinsic Neuronal Properties, Neural Networks, and Behavior. 2015, 457-488. DOI: 10.1093/med/9780199773893.003.0018.ChaptersAction of neurotransmittersIntrinsic neuronal propertiesIntrinsic excitabilityStomatogastric ganglionCommand neuronsNeuronal propertiesDendritic treeAction potentialsNeuronsCellular mechanismsNetwork activitySensory informationIntrinsic electrical propertiesGangliaExcitabilityMost behaviorsNeurotransmittersHormone
2011
Potassium channel modulation and auditory processing
Brown MR, Kaczmarek LK. Potassium channel modulation and auditory processing. Hearing Research 2011, 279: 32-42. PMID: 21414395, PMCID: PMC3137660, DOI: 10.1016/j.heares.2011.03.004.Peer-Reviewed Original ResearchConceptsAuditory brainstem nucleiBrainstem nucleiPotassium channelsPotassium channel modulationSynaptic stimulationFiring patternsOverall sensitivityChannel modulationNeuronsAuditory environmentAuditory processingAuditory systemHigh rateAuditory informationIntrinsic electrical propertiesKey proteinsReview article
2005
Acoustic environment determines phosphorylation state of the Kv3.1 potassium channel in auditory neurons
Song P, Yang Y, Barnes-Davies M, Bhattacharjee A, Hamann M, Forsythe ID, Oliver DL, Kaczmarek LK. Acoustic environment determines phosphorylation state of the Kv3.1 potassium channel in auditory neurons. Nature Neuroscience 2005, 8: 1335-1342. PMID: 16136041, DOI: 10.1038/nn1533.Peer-Reviewed Original ResearchMeSH KeywordsAcoustic StimulationAction PotentialsAnimalsAnimals, NewbornBrain StemCHO CellsCricetinaeCricetulusDose-Response Relationship, RadiationElectric StimulationEnzyme InhibitorsFunctional LateralityGene Expression RegulationImmunohistochemistryIn Vitro TechniquesIndolesMaleimidesNeuronsPatch-Clamp TechniquesPhosphorylationProtein Kinase CRatsRats, Sprague-DawleyTetradecanoylphorbol AcetateConceptsKv3.1 potassium channelAction potentialsAuditory neuronsPotassium channelsShort-duration action potentialsRat brainstem neuronsAuditory brainstem nucleiProtein kinase CHigh-frequency spikingHigh-frequency auditoryBrainstem neuronsHigh-frequency stimuliBrainstem nucleiSynaptic stimulationNeuronsInteraural differencesSound localizationIntrinsic electrical propertiesKinase C