1996
Insulin receptor in Aplysia neurons: characterization, molecular cloning, and modulation of ion currents
Jonas E, Knox R, Kaczmarek L, Schwartz J, Solomon D. Insulin receptor in Aplysia neurons: characterization, molecular cloning, and modulation of ion currents. Journal Of Neuroscience 1996, 16: 1645-1658. PMID: 8774433, PMCID: PMC6578688, DOI: 10.1523/jneurosci.16-05-01645.1996.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAmino Acid SequenceAnimalsAplysiaBase SequenceCalcium ChannelsCloning, MolecularDNA, ComplementaryElectrophysiologyImmunohistochemistryInsulinIon ChannelsMolecular ProbesMolecular Sequence DataNeuronsPotassium ChannelsProtein-Tyrosine KinasesReceptor, InsulinTissue DistributionConceptsBag cell neuronsInsulin receptorInsulin-like peptidesImmunocytochemical staining showCell neuronsTyrosine kinase receptorsVertebrate insulinsMolecular cloningHerbimycin ATyrosine residuesTyrosine kinaseKinase receptorsInsulin-like growth factor-1Factor 1Staining showsVoltage-clamped neuronsVoltage-dependent Ca2Growth factor-1Aplysia californicaAplysia neuronsNervous systemReceptorsAction potentialsNeuronsInsulin
1990
Estrogen induction of a small, putative K+ channel mRNA in rat uterus
Pragnell M, Snay K, Trimmer J, MacLusky N, Naftolin F, Kaczmarek L, Boyle M. Estrogen induction of a small, putative K+ channel mRNA in rat uterus. Neuron 1990, 4: 807-812. PMID: 2344412, DOI: 10.1016/0896-6273(90)90207-v.Peer-Reviewed Original ResearchConceptsMRNA speciesAmino acid proteinProkaryotic ion channelsDramatic long-term changesMolecular cloningAcid proteinIon channel expressionMammalian sourcesIon channelsXenopus oocytesVoltage-dependent channelsSpeciesStructural motifsCritical roleChannel expressionMRNAChannel mRNAEstrogen inductionLong-term changesInductionCloningProteinMotifRegulationOocytes