2014
Use of label-free optical biosensors to detect modulation of potassium channels by G-protein coupled receptors.
Fleming MR, Shamah SM, Kaczmarek LK. Use of label-free optical biosensors to detect modulation of potassium channels by G-protein coupled receptors. Journal Of Visualized Experiments 2014, e51307. PMID: 24562095, PMCID: PMC4122194, DOI: 10.3791/51307.Peer-Reviewed Original ResearchConceptsG protein-coupled receptorsOptical biosensorPlasma membraneLabel-free optical biosensorProtein-protein interactionsIon channelsChannel-protein interactionsExcitable cell typesReceptor tyrosine kinasesProtein-coupled receptorsLigand-induced changesCell surface receptorsPotassium channelsRegulatory proteinsTyrosine kinaseG proteinsProtein behaviorSodium-activated potassium channelsExogenous labelsPhysiological relevanceCell adhesionLiving cellsCell typesHeteromeric channelsSurface receptors
2009
Use of optical biosensors to detect modulation of Slack potassium channels by G protein-coupled receptors
Fleming MR, Kaczmarek LK. Use of optical biosensors to detect modulation of Slack potassium channels by G protein-coupled receptors. Journal Of Receptors And Signal Transduction 2009, 29: 173-181. PMID: 19640220, PMCID: PMC3727623, DOI: 10.1080/10799890903056883.Peer-Reviewed Original ResearchConceptsG protein-coupled receptorsProtein-coupled receptorsPlasma membraneIon channelsActivation of GPCRsProtein-protein interactionsDistribution of massExcitable cell typesPotassium channelsRefractive indexHeteromeric channel complexesOptical sensorsOptical biosensorSlack potassium channelsSurface of cellsRegulatory proteinsMass distributionGPCR activationSodium-activated potassium channelsLiving cellsCell typesElectrical propertiesChannel complexBiophysical propertiesProtein